Nucleic acid based inhibition of CD40

ABSTRACT

Nucleic acid molecule which blocks synthesis and/or expression of an mRNA encoding B7-1, B7-2, B7-3 and/or CD40.

RELATED APPLICATIONS

This application is a continuation of Stinchcomb et al., U.S. Ser. No. 08/585,684, filed Jan. 12, 1996, now U.S. Pat. No. 5,877,021, which claims the benefit of Stinchcomb et al., U.S. Ser. No. 60/000,951, filed Jul. 7, 1995 entitled Method and Reagent for the Induction of Graft Tolerance and Reversal of Immune Responses, which is hereby incorporated by reference herein in totality (including drawings and tables).

BACKGROUND OF THE INVENTION

This invention relates to methods for the induction of graft tolerance, treatment of autoimmune diseases, inflammatory disorders and allergies in particular, by inhibition of B7-1, B7-2, B7-3 and CD40.

The following is a discussion of relevant art, none of which is admitted to be prior art to the present invention.

An adaptive immune response requires activation, clonal expansion, and differentiation of a class of cells termed T lymphocytes (T cells). T cell activation is a multi-step process requiring several signalling events between the T cell and an antigen presenting cell. The ensuing discussion details signals that are exchanged between T cells and antigen presenting B cells. Similar pathways are thought to occur between T cells and other antigen presenting cells such as monocytes or follicular dendritic cells.

T cell activation is initiated when the T-cell receptor (TCR) binds to a specific antigen that is associated with the MHC proteins on the surface of an antigen presenting cell. This primary stimulus activates the T cell and induces expression of CD40 ligand (CD40L) on the surface of the T cell. CD40L then interacts with its cognate receptor, CD40, which is constitutively expressed on the surface of B cells; CD40 transduces the signal leading to B cell activation. B cell activations result in the expression of B7-1, B7-2 and/or B7-3, which in turn interacts with constitutively expressed CD28 on the surface of T cells. The interaction generates a secondary co-stimulatory signal that is required to fully activate the T cell. Complete T cell activation via the T cell receptor and CD28 leads to cytokine secretion, clonal expansion, and differentiation. If the T cell receptor is engaged, absence of this secondary co-stimulus mediated by CD28, then the T cell is inactivated, either by clonal anergy (non-responsiveness or reduced reactivity of the immune system to specific antigen(s)) or clonal deletion (Jenkins et al., 1987 Proc. Natl. Acad. Sci. USA 84, 5409). Thus, engagement of the TCR without a concommitant costimulatory signal results in a state of tolerance toward the specific antigen recognized by the T cell. This co-stimulatory signal can be mediated by the binding of B7-1 or B7-2 or B7-3, present on activated antigen-presenting cells, to CD28, a receptor that is constitutively expressed on the surface of the T cell (Marshall et al., 1993 J Clin Immun 13, 165-174; Linsley, et al., 1991 J Exp Med 173, 721; Koulova et al., 1991 J Exp Med 173, 759; Harding et al., 1992 Nature 356, 607).

Several homologs of B7 (now known as B7-1; Cohen, 1993 Science 262, 844) are expressed in activated B cells (Freeman et al., 1993 Science 262, 907; Lenschowet al., 1993 Proc NatlAcad Sci USA 90, 11054; Azuma et al., 1993 Nature 366, 76; Hathcock et al., 1993 Science 262, 905; Freeman et al., 1993 Science 262, 909). B7-1 and B7-3 are only expressed on the surface of a subset of B cells after 48 hours of contact with T cells. In contrast, B7-2 mRNA is constitutively expressed by unstimulated B cells and increases 4-fold within 4 hours of activation (Freeman et al., 1993 Science 262, 909; Boussiotis et al., 1993 Proc Natl Acad Sci USA 90, 11059). Since T cells commit to either the anergy or the activation pathway within 12-24 hours of the initial TCR signal, it is thought that B7-2 is the molecule responsible for the primary costimulatory signal. B7-1 and B7-3 may provide a subsequent signal necessary for clonal expansion. Antibodies to B7-2 completely block T cell proliferation in a mixed lymphocyte reaction (Azuma et al., 1993 supra), supporting the central role of B7-2 in T cell activation. These experiments indicate that inhibition of B7-2 expression (for example with a ribozyme) would likely induce anergy. Similarly, inhibition of CD40 expression by a ribozyme would prevent B7-2 upregulation and could induce tolerance to specific antigens.

B7 (B7-1) is a 60 KD modified trans-membrane glycoprotein usually present on the surface of antigen presenting cells (APC). B7 has two ligands—CD28 and CTLA4. Interaction of B7-1 with CD28 and/or CTLA4 causes activation of T cell responses (Janeway and Bottomly, 1994 Cell 76, 275).

B7-2 is a 70 KD (34 KD unmodified) trans-membrane glycoprotein found on the surface of APCs. B7-2 encodes a 323 amino-acid protein which is 26% identical to human B7-1 protein. Like B7-1, CD28 and CTLA4 are selectively bound by B7-2. B7-2, unlike B7-1, is expressed on the surface of unstimulated B cells (Freeman et al., 1993 supra).

CD40 is a 45-50 KD surface glycoprotein found on the surface of late pre-B cells in bone marrow, mature B cells, bone marrow-derived dendritic cells and follicular dendritic cells (Clark and Ledbetter, 1994 Nature 367, 425).

Successful organ transplantation currently requires suppression of the reipient's immune system in order to prevent graft rejection and maintain good graft function. The available therapies, including cyclosporin A, FK506 and various monoclonal antibodies, all have serious side effects (Caine, 1992 Transplantation Proceedings 24,1260; Fuleihan et al., 1994 J. Clin. Invest. 93, 1315; Van Gool et al., 1994 Blood 83, 176) . In addition, existing therapies result in general immune suppression, leaving the patient susceptible to a variety of opportunistic infections. The ability to induce a state of long-term, antigen-specific tolerance to the donor tissue would revolutionize the field of organ and tissue transplantation. Since organ graft rejection is mediated by T cell effector function, the goal is to block specifically the activation of the subset of T cells that recognize donor antigens. A limitation in the field of transplantation is the supply of donor organs (Nowak 1994 Science 266, 1148). The ability to induce donor-specific tolerance would substantially increase the chances of successful allographs, xenographs, thereby greatly increasing the donor pool.

Such transplantation includes grafting of tissues and/or organ ie., implantation or transplantation of tissue and/or organs, from the body of an individual to a different place within the same or different individual. Transplantation also involve grafting of tissues and/or organs from one area of the body to another. Transplantation of tissues and/or organs between genetically dissimilar animals of the same species is termed as allogeneic transplantation. Transplantation of animal organs into humans is termed xenotransplants (for a review see Nowak, 1994 Science 266, 1148).

One therapy currently being developed that has similar potential to induce antigen-specific tolerance is treatment with a CTLA4-lg fusion protein. “CTLA4” is a homologue of CD28 that binds B7-1 and B7-2 with high affinity. The engineered, soluble fusion protein, CTLA4-lg, binds B7-1, thereby blocking its interaction with CD28. The results of CTLA4-lg treatment in animal studies are mixed. CTLA4-lg treatment significantly enhanced survival rates and ameliorated the symptoms of graft-versus host disease in a murine bone marrow tranplant model (Blazer et al., 1994 Blood 83, 3815). CTLA4-lg induced long-term (>110 days) donor-specific tolerance in pancreatic islet xenographs (Lenschow et al., 1992 Science 257, 789). Conversely, in another study CTLA4-lg treatment delayed but did not ultimately prevent cardiac allograft rejection (Turka, et al., 1992 Proc Nati Acad Sci USA 89, 11102). Mice immunized with sheep erythrocytes in the presence of CTLA4-lg failed to mount a primary immune response (Linsley, et al., 1992 Science 257, 792). A secondary immunization did elicit some response, however, indicating incomplete tolerance. Interestingly, identical results were obtained when CTLA4-lg was administered 2 days after primary immunization, leading the authors to conclude that CTLA4-lg blocked amplification rather than initiation of the immune response. Since CTLA4-lg has been shown to dissociate more raoidly from B7-2 compared with B7-1, this may explain the failure to induce long term tolerance in this model (Linsley et al., 1994 Immunity 1, 793).

CTLA4:lg has recently been shown to ameliorate symptoms of spontaneous autoimmune disease in lupus-prone mice (Finck et al., 1994 Science 265, 1225).

Linsley et al., WO 92/00092 describe B7 antigen as a ligand for CD28 receptor on T cells. The application states that—

“The B7 antigen, or its fragments or derivatives are reacted with CD28 positive T cells to reglulate T cell interactions with other cells . . . B7 antigen or CD28 receptor may be used to inhibit interaction of cells associated with these molecules, thereby regulating T cell responses.”

De Boer and Conroy, WO 94/01547 describe the use of anti-B7 and anti-CD40 antibodies to treat allograft transplant rejection, graft versus host disease and rhematoid arthritis. The application states that—

“. . . anti-B7 and anti-CD40 antibodies . . . can be used to prevent or treat an antibody-mediated or immune system disease in a patient.”

Since signalling via CD40 precedes induction of B-7, blocking the CD40-CD40L interaction would also have the potential to produce tolerance. According to one report, simultaneous treatment of mice with antibodies to CD40L and sheep red blood cells produced antigen-specific tolerance for up to 3 weeks following cessation of treatment (Foy et al., 1993 J Exp Med 178, 1567). Anti-CD40L also produces antigen specific tolerance in a pancreatic islet transplant model (R. Noelle, personal communication). Targeted inhibition of CD40 expression in B cells in addition to B7 would therefore afford double protection against activation of T cells.

Therapeutic agents used to prevent rejection of a transplanted organ are all cytotoxic compounds or antibodies designed to suppress the cell-mediated immune system. The side effects of these agents are those of immunosuppression and infections. The primary approved agents are azathioprine, corticosteroids, cyclosporine; the antibodies are antilymphocyte or antithymocyte globulins. All of these are given to individuals who have been as closely matched as possible to their donors by both major and minor histocompatibility typing. Since the principal problem in transplantation is an antigenic mismatch and the resulting need for cytotoxic therapy, any therapeutic improvement which decreases the local immune response without general immunosuppression should capture the transplant market.

Cyclosporine: At the end of the 1970's and early 1980's the introduction of cyclosporine revolutionized the transplantation field. It is a potent immunosuppressant which can inhibit immunocompetent lymphocytes specifically and reversibly. Its primary mechanism of action appears to be inhibition of the production and release of interleukin-2 by T helper cells. In addition it also interferes with the release of interleukin-1 by macrophages, as well as proliferation of B lymphocytes. It was approved by the FDA in 1983 and by 1989 was almost universally given to transplant recipients. At first it was believed that the toxicity and side effects from cyclosporine were minimal and it was hailed as a “wonder drug.” Numerous side effects have been progressively cited, including the appearance of lymphomas, especially in the gastrointestinal tract; acute and chronic nephrotoxicity; hypertension; hepatotoxicity; hirsutism; anemia; neurotoxicity; endocrine and neurological complications; and gastrointestinal distress. It is now widely acknowledged that the non-specific side effects of the drug demand caution and close monitoring of its use. One-year survival rates for cadaver kidney transplants treated with cyclosporine is 80%, much better than the 50-60% rates without the drug. The one-year survival is almost 90% for transplants with related donors and the use of cyclosporine.

Azathioprine: In addition to cyclosporine, azathioprine is used for transplant patients. Azathioprine is one of the mercaptopurine class of drugs and inhibits nucleic acid synthesis. Patients are maintained indefinitely on daily doses of 1 mg/kg or less, with a dosage adjusted in accordance with the white cell count. The drug may cause depression of bone marrow elements and may cause jaundice.

Corticosteroids: Prednisone, used in almost all transplant recipients, is usually given in association with azathioprine and cyclosporine. The dosage must be regulated carefully so as so prevent complications such as infection, development of cushingoid features, and hypertension. Usually the initial maintenance prednisone dosage is 0.5 mglkg/d. This dosage is usually further decreased in the outpatient clinic until maintenance levels of about 10 mg/d for adults are obtained. The exact site of action of corticosteroids on the immune response is not known.

Antithymoblast or antilymphocyte globulin (ALG) and antithymocyte globulin (ATG): These are important adjunctive immunosuppressants. They are effective, particularly in induction of immunosuppressive therapy and in the treatment of corticosteroid-resistant rejection. Both ALG and ATG can be made by immunizing horses, rabbits, or sheep; the main source is horses. Lymphocytes from human peripheral blood, spleen, lymph nodes, or thymus serve as the immunogen.

Tacrolimus: On Apr. 13, 1994 the Food and Drug Administration approved another drug to help prevent the rejection of organ transplants. The drug, tacrolimus, was approved only for use in liver transplant patients. An alternative to cyclosporine, the macrolide immunosuppressant tacrolimus is a powerful and selective anti-T-lymphocyte agent that was discovered in 1984. Tacrolimus, isolated from the fungus Streptomyces tsukubaensis, possesses immunodepressant properties similar to but more potent than cyclosporine. It inhibits both cell-mediated and humoral immune responses. Like cyclosporine, tacrolimus demonstrates considerable interindividual variation in its pharmacokinetic profile. Most clinical studies with tacrolimus have neither been published in their entirety nor subjected to extensive peer review; there is also a paucity of published randomized investigations of tacrolimus vs. cyclosporine, particularly in renal transplantation. Despite these drawbacks, tacrolimus has shown notable efficacy as a rescue or primary immunosuppressant therapy when combined with corticosteroids. The potential for reductional withdrawal of corticosteroid therapy with tacrolimus appears to be a distinct advantage compared with the cyclosporine. This benefit may be enhanced by reduced incidence of infectious complications, hypertension and hypercholesterolemia reported by some investigators. In other respects, the tolerability profile of tacrolimus appears to be broadly similar to that of cyclosporine.

In addition to induction of graft tolerance, T cell anergy can be used to reverse autoimmune diseases. Autoimmune diseases represent a broad category of conditions. A few examples include insulin-dependent diabetes mellitus (IDDM), multiple schlerosis (MS), systemic lupus erythematosus (SLE), rheumatoid arthritis (RA), myasthenia gravis (MG), and psoriasis. These seemingly disparate diseases all share the common feature of inappropriate immune response to specific self-antigens. Finck et al. supra have reported that CTLA4lg treatment of mice blocked auto-antibody production in a mice model of SLE. In fact, this effect was observed even when the CTLA4lg treatment was initiated during the advanced stages of the disease, suggesting that the autoimmune response was a reversible process.

Chappel., WO 94/11011 describes methods to treat autoimmune diseases by inducing tolerance to cells, tissues and organs. The application states that—

“Cells genetically engineered with DNA encoding a plurality of antigens of a cell, tissue, or organ to which tolerance is to be induced. The cells are free of costimulatory antigens, such as B7 antigen,. Such cells induce T-cell anergy against the proteins encoded by the DNA, and may be administered to a patient in order to prevent the onset of or to treat an autoimmune disease, or to induce tolerance to a tissue or organ prior to transplantation.”

Allergic reactions represent an immediate hypersensitivity response to environmental antigens, typically mediated by IgE antibodies. The ability to induce antigen-specific tolerance provides a powerful avenue to alleviate allergies by exposure to the antigen in conjunction with down-regulation of B7-1, B7-2, B7-3 or CD40.

The specific roles of B7-1, B7-2 and B7-3 in T cell activation remains to be determined. Some studies suggest that their functions are essentially redundant (Hathcock et al 1994 J Exp. Med. 180, 631), or that the differences observed in the kinetics of expression might simply indicate that B7-2 is important in the initiation of the co-stimulatory signal, while B7-1 plays a role in the amplification of that signal. Other studies point to more specific functions. For example, Kuchroo et al., 1995 Cell 80, 707, have reported that blocking B7-1 expression may favor a Th2 response, while blocking B7-2 expression favors a Th1 response. These two helper T cell subpopulations play distinct roles in the immune response and inflammatory disease. Th1 cells are strongly correlated with auto-immune disease. Allergic responses are typically triggered by Th2 response. Therefore, the decision to target B7-1, B7-2, CD40 or a combination of the above will depend to the particular disease application.

SUMMARY OF THE INVENTION

The invention features novel nucleic acid-based techniques [e.g., enzymatic nucleic acid molecules (ribozymes), antisense nucleic acids, 2-5A antisense chimeras, triplex DNA, antisense nucleic acids containing RNA cleaving chemical groups (Cook et al., U.S. Pat. No. 5,359,051)] and methods for their use to induce graft tolerance, to treat autoimmune diseases such as lupus, rheumatoid arthritis, multiple sclerosis and to treatment of allergies.

In a preferred embodiment, the invention features use of one or more of the nucleic acid-based techniques to induce graft tolerance by inhibiting the synthesis of B7-1, B7-2, B7-3 and CD40 proteins.

Those in the art will recognize the other potential targets, for e.g., ICAM-1, VCAM-1, β1 integrin (VLA4) are also suitable for treatment with the nucleic acid-based techniques described in the present invention.

By “inhibit” is meant that the activity of B7-1, B7-2, B7-3 and/or CD40 or level of mRNAs encoded by B7-1, B7-2, B7-3 and/or CD40 is reduced below that observed in the absence of the nucleic acid. In one embodiment, inhibition with ribozymes preferably is below that level observed in the presence of an enzymatically inactive RNA molecule able to bind to the same site on the mRNA, but unable to cleave that RNA.

By “enzymatic RNA molecule” it is meant an RNA molecule which has complementarity in a substrate binding region to a specified gene target, and also has an enzymatic activity which is active to specifically cleave RNA in that target. That is, the enzymatic RNA molecule is able to intermolecularly cleave RNA and thereby inactivate a target RNA molecule. This complementarity functions to allow sufficient hybridization of the enzymatic RNA molecule to the target RNA to allow the cleavage to occur. One hundred percent complementarity is preferred, but complementarity as low as 50-75% may also be useful in this invention. By “equivalent” RNA to B7-1, B7-2, B7-3 and/or CD40 is meant to include those naturally occurring RNA molecules associated with graft rejection in various animals, including human, mice, rats, rabbits, primates and pigs.

By “antisense nucleic acid” is meant a non-enzymatic nucleic acid molecule that binds to another RNA (target RNA) by means of RNA-RNA or RNA-DNA or RNA-PNA (protein nucleic acid; Egholm et al., 1993 Nature 365, 566) interactions and alters the activity of the target RNA (for a review see Stein and Cheng, 1993 Science 261, 1004).

By “2-5A antisense chimera” is meant, an antisense oligonucleotide containing a 5′ phosphorylated 2′-5′-linked adenylate residues. These chimeras bind to target RNA in a sequence-specific manner and activate a cellular 2-5A-dependent ribonuclease which in turn cleaves the target RNA (Torrence et al., 1993 Proc. Natl. Acad. Sci. USA 90, 1300).

By “triplex DNA” is meant an oligonucleotide that can bind to a double-stranded DNA in a sequence-specific manner to form a triple-strand helix. Triple-helix formation has been shown to inhibit transcription of the targeted gene (Duval-Valentin et al., 1992 Proc. Natl. Acad. Sci.USA 89, 504).

By “gene” is meant a nucleic acid that encodes an RNA.

By “complementarity” is meant a nucleic acid that can form hydrogen bond(s) with other RNA sequence by either traditional Watson-Crick or other non-traditional types (for example, Hoogsteen type) of base-paired interactions.

Six basic varieties of naturally-occurring enzymatic RNAs are known presently. Each can catalyze the hydrolysis of RNA phosphodiester bonds in trans (and thus can cleave other RNA molecules) under physiological conditions. Table I summarizes some of the characteristics of these ribozymes. In general, enzymatic nucleic acids act by first binding to a target RNA. Such binding occurs through the target binding portion of a enzymatic nucleic acid which is held in close proximity to an enzymatic portion of the molecule that acts to cleave the target RNA. Thus, the enzymatic nucleic acid first recognizes and then binds a target RNA through complementary base-pairing, and once bound to the correct site, acts enzymatically to cut the target RNA. Strategic cleavage of such a target RNA will destroy its ability to direct synthesis of an encoded protein. After an enzymatic nucleic acid has bound and cleaved its RNA target, it is released from that RNA to search for another target and can repeatedly bind and cleave new targets.

The enzymatic nature of a ribozyme is advantageous over other technologies, since the concentration of ribozyme necessary to affect a therapeutic treatment is lower. This advantage reflects the ability of the ribozyme to act enzymatically. Thus, a single ribozyme molecule is able to cleave many molecules of target RNA. In addition, the ribozyme is a highly specific inhibitor, with the specificity of inhibition depending not only on the base-pairing mechanism of binding to the target RNA, but also on the mechanism of target RNA cleavage. Single mismatches, or base-substitutions, near the site of cleavage can completely eliminate catalytic activity of a ribozyme.

Ribozymes that cleave the specified sites in B7-1, B7-2, B7-3 and/or CD40 mRNAs represent a novel therapeutic approach to induce graft tolerance and treat autoimmune diseases, allergies and other inflammatory conditions. Applicant indicates that ribozymes are able to inhibit the activity of B7-1, B7-2, B7-3 and/or CD40 and that the catalytic activity of the ribozymes is required for their inhibitory effect. Those of ordinary skill in the art, will find that it is clear from the examples described that other ribozymes that cleave these sites in B7-1, B7-2, B7-3 and/or CD40 mRNAs may be readily designed and are within the invention.

In preferred embodiments of this invention, the enzymatic nucleic acid molecule is formed in a hammerhead or hairpin motif, but may also be formed in the motif of a hepatitis delta virus, group I intron or RNaseP RNA (in association with an RNA guide sequence) or Neurospora VS RNA. Examples of such hammerhead motifs are described by Rossi et al., 1992, Aids Research and Human Retroviruses 8, 183, of hairpin motifs by Hampel et al., EP0360257, Hampel and Tritz, 1989 Biochemistiy 28, 4929, and Hampel et al., 1990 Nucleic Acids Res. 18, 299, and an example of the hepatitis delta virus motif is described by Perrotta and Been, 1992 Biochemistry 31, 16; of the RNaseP motif by Guerrier-Takada et al., 1983 Cell 35, 849, Neurospora VS RNA ribozyme motif is described by Collins (Saville and Collins, 1990 Cell 61, 685-696; Saville and Collins, 1991 Proc. Natl. Acad. Sci. USA 88, 8826-8830; Collins and Olive, 1993 Biochemistiy 32, 2795-2799) and of the Group I intron byt Cech et al., U.S. Pat. No. 4,987,071. These specific motifs are not limiting in the invention and those skilled in the art will recognize that all that is important in an enzymatic nucleic acid molecule of this invention is that it has a specific substrate binding site which is complementary to one or more of the target gene RNA regions, and that it have nucleotide sequences within or surrounding that substrate binding site which impart an RNA cleaving activity to the molecule.

In a preferred embodiment the invention provides a method for producing a class of enzymatic cleaving agents which exhibit a high degree of specificity for the RNA of a desired target. The enzymatic nucleic acid molecule is preferably targeted to a highly conserved sequence region of a target mRNAs encoding B7-1, B7-2, B7-3 and/or CD40 proteins such that specific treatment of a disease or condition can be provided with either one or several enzymatic nucleic acids. Such enzymatic nucleic acid molecules can be delivered exogenously to specific cells as required. Alternatively, the ribozymes can be expressed from DNA/RNA vectors that are delivered to specific cells.

Synthesis of nucleic acids greater than 100 nucleotides in length is difficult using automated methods, and the therapeutic cost of such molecules is prohibitive. In this invention, small enzymatic nucleic acid motifs (e.g., of the hammerhead or the hairpin structure) are used for exogenous delivery. The simple structure of these molecules increases the ability of the enzymatic nucleic acid to invade targeted regions of the mRNA structure. However, these catalytic RNA molecules can also be expressed within cells from eukaryotic promoters (e.g., Scanlon et al., 1991, Proc. Natl. Acad. Sci. USA, 88, 10591-5; Kashani-Sabet et al., 1992 Antisense Res. Dev., 2, 3-15; Dropulic et al., 1992 J. Virol, 66, 1432-41; Weerasinghe et al., 1991 J. Virol, 65, 5531-4; Ojwang et al, 1992 Proc. Natl. Acad. Sci. USA 89, 10802-6; Chen et al., 1992 Nucleic Adids Res., 20, 4581-9; Sarver et al., 1990 Science 247, 1222-1225). Those skilled in the art realize that any ribozyme can be expressed in eukaryotic cells from the appropriate DNA/RNA vector. The activity of such ribozymes can be augmented by their release from the primary transcript by a second ribozyme (Draper et al., PCT WO93/23569, and Sullivan et al., PCT WO94/02595, both hereby incorporated in their totality by reference herein; Ohkawa et al., 1992 Nucleic Acids Symp. Ser., 27, 15-6; Taira et al., 1991, Nucleic Acids Res., 19, 5125-30; Ventura et al., 1993 Nucleic Acids Res., 21, 3249-55; Chowrira et al., 1994 J. Biol. Chem. 269, 25856).

Such ribozymes are useful for the prevention of the diseases and conditions discussed above, and any other diseases or conditions that are related to the levels of B7-1, B7-2, B7-3 and/or CD40 activity in a cell or tissue. By “related” is meant that the inhibition of B7-1, B7-2, B7-3 and/or CD40 mRNAs and thus reduction in the level respective protein activity will relieve to some extent the symptoms of the disease or condition.

Ribozymes are added directly, or can be complexed with cationic lipids, packaged within liposomes, or otherwise delivered to target cells. The nucleic acid or nucleic acid complexes can be locally administered to relevant tissues ex vivo, or in vivo through injection, infusion pump or stent, with or without their incorporation in biopolymers. In preferred embodiments, the ribozymes have binding arms which are complementary to the sequences in Tables II, IV, VI, VIII, X, XII, XIV, XV, XVI, XVII, XVIII and XIX. Examples of such ribozymes are shown in Tables III, V, VI, VII, IX, XI, XIII, XIV, XV, XVI, XVII, XVIII and XIX. Examples of such ribozymes consist essentially of sequences defined in these Tables. By “consists essentially of” is meant that the active ribozyme contains an enzymatic center equivalent to those in the examples, and binding arms able to bind mRNA such that cleavage at the target site occurs. Other sequences may be present which do not interfere with such cleavage.

In another aspect of the invention, ribozymes that cleave target molecules and inhibit B7-1, B7-2, B7-3 and/or CD40 activity are expressed from transcription units inserted into DNA or RNA vectors. The recombinant vectors are preferably DNA plasmids or viral vectors. Ribozyme expressing viral vectors could be constructed based on, but not limited to, adeno-associated virus, retrovirus, adenovirus, or alphavirus. Preferably, the recombinant vectors capable of expressing the ribozymes are delivered as described above, and persist in target cells. Alternatively, viral vectors may be used that provide for transient expression of ribozymes. Such vectors might be repeatedly administered as necessary. Once expressed, the ribozymes cleave the target mRNA. Delivery of ribozyme expressing vectors could be systemic, such as by intravenous or intramuscular administration, by administration to target cells ex-planted from the patient followed by reintroduction into the patient, or by any other means that would allow for introduction into the desired target cell.

By “vectors” is meant any nucleic acid- and/or viral-based technique used to deliver a desired nucleic acid.

Other features and advantages of the invention will be apparent from the following description of the preferred embodiments thereof, and from the claims.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The drawings will first briefly be described.

DRAWINGS

FIG. 1 is a diagrammatic representation of the hammerhead ribozyme domain known in the art (SEQ ID NO: 2746). Stem II can be ≧2 base-pair long.

FIG. 2a is a diagrammatic representation of the hammerhead ribozyme domain known in the art.

FIG. 2b is a diagrammatic representation of the hammerhead ribozyme as divided by Uhlenbeck (1987, Nature, 327, 596-600) into a substrate and enzyme portion.

FIG. 2c is a similar diagram showing the hammerhead divided by ,Haseloff and Gerlach (1988, Nature, 334, 585-591) into two portions.

FIG. 2d is a similar diagram showing the hammerhead divided by Jeffries and Symons (1989, Nucl. Acids. Res., 17, 1371-1371) into two portions.

FIG. 3 is a diagrammatic representation of the general structure of a hairpin ribozyme (SEQ ID NO: 2748). Helix 2 (H2) is provided with a least 4 base pairs (i.e., n is 1, 2, 3 or 4) and helix 5 can be optionally provided of length 2 or more bases (preferably 3-20 bases, ie., m is from 1-20 or more). Helix 2 and helix 5 may be covalently linked by one or more bases (i.e., r is ≧1 base). Helix 1, 4 or 5 may also be extended by 2 or more base pairs (e.g., 4-20 base pairs) to stabilize the ribozyme structure, and preferably is a protein binding site. In each instance, each N and N′ independently is any normal or modified base and each dash represents a potential base-pairing interaction. These nucleotides may be modified at the sugar, base or phosphate. Complete base-pairing is not required in the helices, but is preferred. Helix 1 and 4 can be of any size (ie., o and p is each independently from 0 to any number, e.g., 20) as long as some base-pairing is maintained. Essential bases are shown as specific bases in the structure, but those in the art will recognize that one or more may be modified chemically (abasic, base, sugar and/or phosphate modifications) or replaced with another base without significant effect. Helix 4 can be formed from two separate molecules, i.e., without a connecting loop. The connecting loop when present may be a ribonucleotide with or without modifications to its base, sugar or phosphate. “q” is ≧2 bases. The connecting loop can also be replaced with a non-nucleotide linker molecule. H, refers to bases A, U or C. Y refers to pyrimidine bases.

FIG. 4 is a representation of the general structure of the hepatitis delta virus ribozyme domain known in the art (SEQ ID NO: 2749).

FIG. 5 is a representation of the general structure of the self-cleaving VS RNA ribozyme domain (SEQ ID NO: 2750).

FIG. 6 is a schematic representation of an RNAseH accessibility assay. Specifically, the left side of FIG. 6 is a diagram of complementary DNA oligonucleotides bound to accessible sites on the target RNA. Complementary DNA oligonucleotides are represented by broad lines labeled A, B, and C. Target RNA is represented by the thin, twisted line. The right side of FIG. 6 is a schematic of a gel separation of uncut target RNA from a cleaved target RNA. Detection of target RNA is by autoradiography of body-labeled, T7 transcript. The bands common to each lane represent uncleaved target RNA; the bands unique to each lane represent the cleaved products.

RIBOZYMES

Ribozymes of this invention block to some extent B7-1, B7-2, B7-3 and/or CD40 production and can be used to treat disease or diagnose such disease. Ribozymes will be delivered to cells in culture, to cells or tissues in animal models of transplantation, autoimmune diseases and/or allergies and to human cells or tissues ex vivo or in viva. Ribozyme cleavage of B7-1, B7-2 and/or CD40 encoded mRNAs in these systems may alleviate disease symptoms.

Target Sites

Targets for useful ribozymes can be determined as disclosed in Draper et al., “Method and reagent for treatment of arthritic conditions U.S. Ser. No. 08/152,487, filed Nov. 12, 1993, and hereby incorporated by reference herein in totality. Rather than repeat the guidance provided in those documents here, below are provided specific examples of such methods, not limiting to those in the art. Ribozymes to such targets are designed as described in those applications and synthesized to be tested in vitro and in vivo, as also described.

The sequence of human and mouse B7-1, B7-2, B7-3 and/or CD40 mRNAs were screened for optimal ribozyme target sites using a computer folding algorithm. Hammerhead or hairpin ribozyme cleavage sites were identified. These sites are shown in Tables II, IV, VI, VIII, X, XII, XIV, XV, XVI, XVII, XVIII and XIX (All sequences are 5′ to 3′ in the tables) The nucleotide base position is noted in the Tables as that site to be cleaved by the designated type of ribozyme. While mouse and human sequences can be screened and ribozymes thereafter designed, the human targeted sequences are of most utility. However, as discussed in Stinchcomb et al., “Method and Composition for Treatment of Restenosis and Cancer Using Ribozymes,” filed May 18, 1994, U.S. Ser. No. 08/245,466, mouse targeted ribozymes may be useful to test efficacy of action of the ribozyme prior to testing in humans. The nucleotide base position is noted in the Tables as that site to be cleaved by the designated type of ribozyme.

Hammerhead or hairpin ribozymes were designed that could bind and v-ere individually analyzed by computer folding (Jaeger et al., 1989 Proc. Natl. Acad. Sci. USA, 86, 7706) to assess whether the ribozyme sequences fold into the appropriate secondary structure. Those ribozymes with unfavorable intramolecular interactions between the binding arms and the catalytic core were eliminated from consideration. Varying binding arm lengths can be chosen to optimize activity. Generally, at least 5 bases on each arm are able to bind to, or otherwise interact with, the target RNA.

Referring to FIG. 6, mRNA is screened for accessible cleavage sites by the method described generally in McSwiggen, U.S. patent application Ser. No. 07/883,849 filed on May 1, 1992, entitled “Assay for ribozyme target site”, hereby incorporated by reference herein. Briefly, DNA oligonucleotides representing potential hammerhead or hairpin ribozyme cleavage sites were synthesized. A polymerase chain reaction is used to generate substrates for T7 RNA polymerase transcription from human and mouse B7-1, B7-2 and CD40 cDNA clones. Labeled RNA transcripts are synthesized in vitro from the templates. The oligonucleotides and the labeled transcripts were annealed, RNAseH was added and the mixtures were incubated for the designated times at 37° C. Reactions are stopped and RNA separated on sequencing polyacrylamide gels. The percentage of the substrate cleaved is determined by autoradiographic quantitation using a Phosphorimaging system. From these data, hammerhead or hairpin ribozyme sites are chosen as the most accessible.

Ribozymes of the hammerhead or hairpin motif are designed to anneal to various sites in the mRNA message. The binding arms are complementary to the target site sequences described above. The ribozymes are chemically synthesized. The method of synthesis used follows the procedure for normal RNA synthesis as described in Usman et al., 1987 J. Am. Chem. Soc., 109, 7345 and in Scaringe et al., 1990 Nucleic Acids Res., 18, 5433 and makes use of common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5′-end, and phosphoramidites at the 3′-end. The average stepwise coupling yields were >98%. Inactive ribozymes were synthesized by substituting a U for G₅ and a U for A₁₄ (numbering from Hertel et al., 1992 Nucleic Acids Res., 20, 3252). Hairpin ribozymes were synthesized in two parts and annealed to reconstruct the active ribozyme (Chowrira and Burke, 1992 Nucleic Acids Res., 20, 2835-2840). Ribozymes were also synthesized from DNA templates using bacteriophage T7 RNA polymerase (Milligan and Uhlenbeck, 1989, Methods Enzymol. 180, 51). All ribozymes are modified extensively to enhance stability by modification with nuclease resistant groups, for example, 2′-amino, 2′-C-allyl, 2′-flouro, 2′-O-methyl, 2′-H (for a review see Usman and Cedergren, 1992 TIBS 17, 34). Ribozymes are purified by gel electrophoresis using general methods or are purified by high pressure liquid chromatography (HPLC; See Usman et al., Synthesis, deprotection, analysis and purification of RNA and ribozymes, filed May, 18, 1994, U.S. Ser. No. 08/245,736 the totality of which is hereby incorporated herein by reference) and are resuspended in water.

The sequences of the ribozymes that are chemically synthesized, useful in this study, are shown in Tables III, V, VI, VII, IX, XI, XIII, XIV, XV, XVI, XVII, VIII and XIX. Those in the art will recognize that these sequences are representative only of many more such sequences where the enzymatic portion of the ribozyme (all but the binding arms) is altered to affect activity. For example, stem-loop II sequence of hammerhead ribozymes listed in Tables III and V (5′-GGCCGAAAGGCC-3′) can be altered (substitution, deletion, and/or insertion) to contain any sequences provided a minimum of two base-paired stem structure can form. Similarly, stem-loop IV sequence of hairpin ribozymes listed in Tables VI and VII (5′-CACGUUGUG-3′) can be altered (substitution, deletion, and/or insertion) to contain any sequence, provided a minimum of two base-paired stem structure can form. The sequences listed in Tables III, V, VI, VII, IX, XI, XIII, XIV, XV, XVI, XVII, XVIII and XIX may be formed of ribonucleotides or other nucleotides or non-nucleotides. Such ribozymes are equivalent to the ribozymes described specifically in the Tables.

Optimizing Ribozyme Activity

Ribozyme activity can be optimized as described by Stinchcomb et al, supra. The details will not be repeated here, but include altering the length of tie ribozyme binding arms (stems I and III, see FIG. 2c), or chemically synthesizing ribozymes with modifications that prevent their degradation by serum ribonucleases (see e.g., Eckstein et al., International Publication No. WO 92/07065; Perrault et al, 1990 Nature 344, 565; Pieken et al., 1991 Science 253, 314; Usman and Cedergren, 1992 Trends in Biochem. Sci. 17, 334; Usman et al., International Publication No. WO 93/15187; and Rossi et ail, International Publication No. WO 91/03162, as well as Usman, N. et al. U.S. patent application Ser. No. 07/829,729, and Sproat, European Patent Application 92110298.4 which describe various chemical modifications that can be made to the sugar moieties of enzymatic RNA molecules). Modifications which enhance their efficacy in cells, and removal of stem II bases to shorten RNA synthesis times and reduce chemical requirements are desired. (All these publications are hereby incorporated by reference herein.),

Sullivan, et al., supra, describes the general methods for delivery of enzymatic RNA molecules. Ribozymes may be administered to cells by a variety of methods known to those familiar to the art, including, but not restricted to, encapsulation in liposomes, by lontophoresis, or by incorporation into other vehicles, such as hydrogels, cyclodextrins, biodegradable nanocapsules, and bioadhesive microspheres. For some indications, ribozymes may be directly delivered ex vivo to cells or tissues with or without the aforementioned vehicles. Alternatively, the RNA/vehicle combination is locally delivered by direct injection or by use of a catheter, infusion pump or stent. Other routes of delivery include, but are not limited to, intravascular, intramuscular, subcutaneous or joint injection, aerosol inhalation, oral (tablet or pill form), topical, systemic, ocular, intraperitoneal and/or intrathecal delivery. More detailed descriptions of ribozyme delivery and administration are provided in Sullivan et al., supra and Draper et al., supra which have been incorporated by reference herein.

In another preferred embodiment, the ribozyme is administered to the site of B7-1, B7-2, B7-3 and/or CD40 expression (APC) in an appropriate liposomal vesicle. APCs isolated from donor (for example) are treated with the Aribozyme preparation (or other nucleic acid therapeutics) ex vivo and the treated cells are infused into recipient. Alternatively, cells, tissues or organs are directly treated with nucleic acids of the present invention prior to transplantation into a recipient.

Another means of accumulating high concentrations of a ribozyme(s) within cells is to incorporate the ribozyme-encoding sequences into a DNA or RNA expression vector. Transcription of the ribozyme sequences are driven from a promoter for eukaryotic RNA polymerase I (pol I), RNA polymerase If (pol II), or RNA polymerase III (pol III). Transcripts from pol II or pol III promoters will be expressed at high levels in all cells; the levels of a given pol II promoter in a given cell type will depend on the nature of the gene regulatory sequences (enhancers, silencers, etc.) present nearby. Prokaryotic RNA polymerase promoters are also used, providing that the prokaryotic RNA polymerase enzyme is expressed in the appropriate cells (Elroy-Stein and Moss, 1990 Proc. Natl. Acad. Sci. USA, 87, 6743-7; Gao and Huang 1993 Nucleic Acids Res., 21, 2867-72; Lieber et al., 1993 Methods Enzymol., 217, 47-66; Zhou et al., 1990 Mol. Cell. Biol, 10, 4529-37). Several investigators have demonstrated that ribozymes expressed from such promoters can function in mammalian cells (e.g. Kashani-Sabet et al., 1992 Antisense Res. Dev., 2, 3-15; Ojwang et al., 1992 Proc. Natl. Acad. Sci. USA, 89, 10802-6; Chen et al., 1992 Nucleic Acids Res., 20, 4581-9; Yu et al., 1993 Proc. Natl. Acad. Sci. USA, 90, 6340-4; L'Huillier et al., 1992 EMBO J. 11, 4411-8; Lisziewicz et al., 1993 Proc. Natl. Acad. Sci. U.S.A, 90, 8000-4). The above ribozyme transcription units can be incorporated into a variety of vectors for introduction into mammalian cells, including but not restricted to, plasmid DNA vectors, viral DNA vectors (such as adenovirus or adeno-associated virus vectors), or viral RNA vectors (such as retroviral or alphavirus vectors).

In a preferred embodiment of the invention, a transcription unit expressing a ribozyme that cleaves mRNAs encoded by B7-1, B7-2, B7-3 and/or CD40 are inserted into a plasmid DNA vector or an adenovirus or adeno-associated virus DNA viral vector or a retroviral RNA vector. Viral vectors have been used to transfer genes and lead to either transient or long term gene expression (Zabner et al., 1993 Cell 75, 207; Carter, 1992 Curr. Opi. Biotech. 3, 533). The adenovirus vector is delivered as recombinant adenoviral particles. The DNA may be delivered alone or complexed with vehicles (as described for RNA above). The recombinant adenovirus or MV particles are locally administered to the site of treatment, e.g., through incubation or inhalation in vivo or by direct application to cells or tissues ex vitro.

B7-1, B7-2, B7-3 and CD40 are attractive ribozyme targets by several criteria. The molecular mechanism of T cell activation is well-established. Efficacy can be tested in well-defined and predictive animal models. The clinical end-point of graft rejection is clear. Since delivery would be ex vivo, treatment of the correct cell population would be assured. Finally, the disease condition is serious and current therapies are inadequate. Whereas protein-based therapies would induce anergy against all antigens encountered during the several week treatment period, ex vivo ribozyme therapy provides a direct and elegant approach to truly donor-specific anergy.

Similarly, autoimmune diseases and allergies can be prevented or treated by reversing the devastating course of immune response to self-antigens. Specifically, nucleic acids of this inventions can dampen the response to naturally occuring antigens.

EXAMPLE 1 : B7-1, B7-2, B7-3 and/or CD40 Hammerhead Ribozymes

By engineering ribozyme motifs we have designed several ribozymes directed against B7-1, B7-2, B7-3 and/or CD40 encoded mRNA sequences. These ribozymes were synthesized with modifications that improve their nuclease resistance. The ability of ribozymes to cleave target sequences in vitro was evaluated.

Several common human cell lines are available that can be induced to express endogenous B7-1, B7-2, B7-3 and/or CD40. Alternatively, murine splenic cells can be isolated and induced, to express B7-1 or B7-2, with IL-4 or recombinant CD40 ligand. B7-1 and B7-2 can be detected easily with monoclonal antibodies. Use of appropriate flourescent reagents and flourescence-activated cell-sorting (FACS) will permit direct quantitation of surface B7-1 and B7-2 on a cell-by-cell basis. Active ribozymes are expected to directly reduce B7-1 or B7-2 expression. Ribozymes targeted to CD40 would prevent induction of B7-2 by CD40 ligand.

Several animal models of transplantation are available—Mouse, rat, Porcine model (Fodor et al., 1994, Proc. Natl. Acad. Sci. USA 91, 11153); or Baboon (reviewed by Nowak, 1994 Science 266, 1148). B7-1, B7-2, B7-3 and/or CD40 protein levels can be measured clinically or experimentally by FACS analysis. B7-1, B7-2, B7-3 and/or CD40 encoded mRNA levels will be assessed by Northern analysis, RNase-protection, primer extension analysis and/or quantitative RT-PCR. Ribozymes that block the induction of B7-1, B7-2, B7-3 and/or CD40 activity and/or B7-1, B7-2, B7-3 and/or CD40 protein encoding mRNAs by more than 20% in vitro will be identified.

Several animals models of autoimmune disorders are available—allergic encephalomyelitis (EAE) in Lewis rats (Carlson et al., 1993 Ann. N.Y. Acad. Sci. 685, 86); animal models of multiple sclerosis (Wekerle et al., 1994 Ann. Neurol. 36, s47) and rheumatoid arthritis (van Laar et al., 1994 Chem. Immunol. 58, 206).

Several animal models of allergy are available and are reviewed by Kemeny and Diaz-Sanchez, 1990, Clin. Exp. Immunol. 82, 423 and Pretolani et al., 1994 Ann. N.Y.Acad. Sci. 725, 247).

RNA ribozymes and/or genes encoding them will be delivered by either free delivery, liposome delivery, cationic lipid delivery, adeno-associated virus vector delivery, adenovirus vector delivery, retrovirus vector delivery or plasmid vector delivery in these animal model experiments (see above). One dose of a ribozyme vector that constitutively expresses the ribozyme or one or more doses of a stable anti-B7-1, B7-2, B7-3 and/or CD40 ribozymes or a transiently expressing ribozyme vector to donor APC, followed by infusion into the recipient may reduce the incidence of graft rejection. Alternatively, graft tissues may be treated as described above prior to transplantation.

Diagnostic Uses

Ribozymes of this invention may be used as diagnostic tools to examine genetic drift and mutations within diseased cells or to detect the presence of B7-1, B7-2, B7-3 and/or CD40 RNA in a cell. The close relationship between ribozyme activity and the structure of the target RNA allows the detection of mutations in any region of the molecule which alters the base-pairing and three-dimensional structure of the target RNA. By using multiple ribozymes described in this invention, one may map nucleotide changes which are important to RNA structure and function in vitro, as well as in cells and tissues. Cleavage of target RNAs with ribozymes may be used to inhibit gene expression and define the role (essentially) of specified gene products in the progression of disease. In this manner, other genetic targets may be defined as important mediators of the disease. These experiments will lead to better treatment of the disease progression by affording the possibility of combinational therapies (e.g., multiple ribozymes targeted to different genes, ribozymes coupled with known small molecule inhibitors, or intermittent treatment with combinations of ribozymes and/or other chemical or biological molecules). Other in vitro uses of ribozymes of this invention are well known in the art, and include detection of the presence of mRNAs associated with B7-1, B7-2, B7-3 and/or CD40 related condition. Such RNA is detected by determining the presence of a cleavage product after treatment with a ribozyme using standard methodology.

In a specific example, ribozymes which can cleave only wild-type or mutant forms of the target RNA are used for the assay. The first ribozyme is used to identify wild-type RNA present in the sample and the second ribozyme will be used to identify mutant RNA in the sample. As reaction controls, synthetic substrates of both wild-type and mutant RNA will be cleaved by both ribozymes to demonstrate the relative ribozyme efficiencies in the reactions and the absence of cleavage of the “non-targeted” RNA species. The cleavage products from the synthetic substrates will also serve to generate size markers for the analysis of wild-type and mutant RNAs in the sample population. Thus each analysis will require two ribozymes, two substrates and one unknown sample which will be combined into six reactions. The presence of cleavage products will be determined using an RNAse protection assay so that full-length and cleavage fragments of each RNA can be analyzed in one lane of a polyacrylamide gel. It is not absolutely required to quantify the results to gain insight into the expression of mutant RNAs and putative risk of the desired phenotypic changes in target cells. The expression of mRNA whose protein product is implicated in the development of the phenotype (ie., B7-1, B7-2, B7-3 and/or CD40) is adequate to establish risk. If probes of comparable specific activity are used for both transcripts, then a qualitative comparison of RNA levels will be adequate and will decrease the cost of the initial diagnosis. Higher mutant form to wild-type ratios will be correlated with higher risk whether RNA levels are compared qualitatively or quantitatively.

Other embodiments are within the following claims.

TABLE I Characteristics of Ribozymes Group I Introns Size: ˜200 to >1000 nucleotides. Requires a U in the target sequence immediately 5′ of the cleavage site. Binds 4-6 nucleotides at 5′ side of cleavage site. Over 75 known members of this class. Found in Tetrahymena thermophila rRNA, fungal mitochondria, chloroplasts, phage T4, blue-green algae, and others. RNAseP RNA (M1 RNA) Size: ˜290 to 400 nucleotides. RNA portion of a ribonucleoprotein enzyme. Cleaves tRNA precursors to form mature tRNA. Roughly 10 known members of this group all are bacterial in origin. Hammerhead Ribozyme Size: ˜13 to 40 nucleotides. Requires the target sequence UH immediately 5′ of the cleavage site. Binds a variable number nucleotides on both sides of the cleavage site. 14 known members of this class. Found in a number of plant pathogens (virusoids) that use RNA as the infectious agent (FIG. 1) Hairpin Ribozyme Size: ˜50 nucleotides. Requires the target sequence GUC immediately 3′ of the cleavage site. Binds 4-6 nucleotides at 5′ side of the cleavage site and a variable number to the 3′ side of the cleavage site. Only 3 known member of this class. Found in three plant pathogen (satellite RNAs of the tobacco ringspot virus, arabis mosaic virus and chicory yellow mottle virus) which uses RNA as the infectious agent (FIG. 3). Hepatitis Delta Virus (HDV) Ribozyme Size: 50-60 nucleotides (at present). Cleavage of target RNAs recently demonstrated. Sequence requirements not fully determined. Binding sites and structural requirements not fully determined, although no sequences 5′ of cleavage site are required. Only 1 known member of this class. Found in human HDV (FIG. 4). Neurospora VS RNA Ribozyme Size: ˜144 nucleotides (at present) Cleavage of target RNAs recently demonstrated. Sequence requirements not fully determined. Binding sites and structural requirements not fully determined. Only 1 known member of this class. Found in Neurospora VS RNA (FIG. 5).

TABLE II Human B7-1 Hammerhead Ribozyme Sequences nt. Seq. ID nt. Seq. ID Position HH Target Sequence No. Position HH Target Sequence No. 8 AAACCCU C UGUAAAG 1 236 UGUGUGU U UUGUAAA 43 12 CCUCUGU A AAGUAAC 2 237 GUGUGUU U UGUAAAC 44 17 GUAAAGU A ACAGAAG 3 238 UGUGUUU U GUAAACA 45 26 CAGAAGU U AGAAGGG 4 241 GUUUUGU A AACAUCA 46 27 AGAAGUU A GAAGGGG 5 247 UAAACAU C ACUGGAG 47 41 GAAAUGU C GCCUCUC 6 258 GGAGGGU C UUCUACG 48 46 GUCGCCU C UCUGAAG 7 260 AGGGUCU U CUACGUG 49 48 CGCCUCU C UGAAGAU 8 261 GGGUCUU C UACGUGA 50 56 UGAAGAU U ACCCAAA 9 263 GUCUUCU A CGUGAGC 51 57 GAAGAUU A CCCAAAG 10 274 GAGCAAU U GGAUUGU 52 75 AAGUGAU U UGUCAUU 11 279 AUUGGAU U GUCAUCA 53 76 AGUGAUU U GUCAUUG 12 282 GGAUUGU C AUCAGCC 54 79 GAUUUGU C AUUGCUU 13 285 UUGUCAU C AGCCCUG 55 82 UUGUCAU U GCUUUAU 14 298 UGCCUGU U UUGCACC 56 86 CAUUGCU U UAUAGAC 15 299 GCCUGUU U UGCACCU 57 87 AUUGCUU U AUAGACU 16 300 CCUGUUU U GCACCUG 58 88 UUGCUUU A UAGACUG 17 322 CCCUGGU C UUACUUG 59 90 GCUUUAU A GACUGUA 18 324 CUGGUCU U ACUUGGG 60 97 AGACUGU A AGAAGAG 19 325 UGGUCUU A CUUGGGU 61 110 AGAACAU C UCAGAAG 20 328 UCUUACU U GGGUCCA 62 112 AACAUCU C AGAAGUG 21 333 CUUGGGU C CAAAUUG 63 124 GUGGAGU C UUACCCU 22 339 UCCAAAU U GUUGGCU 64 126 GGAGUCU U ACCCUGA 23 342 AAAUUGU U GGCUUUC 65 127 GAGUCUU A CCCUGAA 24 347 GUUGGCU U UCACUUU 66 137 CUGAAAU C AAAGGAU 25 348 UUGGCUU U CACUUUU 67 145 AAAGGAU U UAAAGAA 26 349 UGGCUUU C ACUUUUG 68 146 AAGGAUU U AAAGAAA 27 353 UUUCACU U UUGACCC 69 147 AGGAUUU A AAGAAAA 28 354 UUCACUU U UGACCCU 70 163 GUGGAAU U UUUCUUC 29 355 UCACUUU U GACCCUA 71 164 UGGAAUU U UUCUUCA 30 362 UGACCCU A AGCAUCU 72 165 GGAAUUU U UCUUCAG 31 368 UAAGCAU C UGAAGCC 73 166 GAAUUUU U CUUCAGC 32 404 GGAACAU C ACCAUCC 74 167 AAUUUUU C UUCAGCA 33 410 UCACCAU C CAAGUGU 75 169 UUUUUCU U CAGCAAG 34 418 CAAGUGU C CAUACCU 76 170 UUUUCUU C AGCAAGC 35 422 UGUCCAU A CCUCAAU 77 187 UGAAACU A AAUCCAC 36 426 CAUACCU C AAUUUCU 78 191 ACUAAAU C CACAACC 37 430 CCUCAAU U UCUUUCA 79 200 ACAACCU U UGGAGAC 38 431 CUCAAUU U CUUUCAG 80 201 CAACCUU U GGAGACC 39 432 UCAAUUU C UUUCAGC 81 221 ACACCCU C CAAUCUC 40 434 AAUUUCU U UCAGCUC 82 226 CUCCAAU C UCUGUGU 41 435 AUUUCUU U CAGCUCU 83 228 CCAAUCU C UGUGUGU 42 436 UUUCUUU C AGCUCUU 84 441 UUCAGCU C UUGGUGC 85 782 GUGACGU U AUCAGUC 134 443 CAGCUCU U GGUGCUG 86 783 UGACGUU A UCAGUCA 135 457 GGCUGGU C UUUCUCA 87 785 ACGUUAU C AGUCAAA 136 459 CUGGUCU U UCUCACU 88 789 UAUCAGU C AAAGCUG 137 460 UGGUCUU U CUCACUU 89 800 GCUGACU U CCCUACA 138 461 GGUCUUU C UCACUUC 90 801 CUGACUU C CCUACAC 139 463 UCUUUCU C ACUUCUG 91 805 CUUCCCU A CACCUAG 140 467 UCUCACU U CUGUUCA 92 811 UACACCU A GUAUAUC 141 468 CUCACUU C UGUUCAG 93 814 ACCUAGU A UAUCUGA 142 472 CUUCUGU U CAGGUGU 94 816 CUAGUAU A UCUGACU 143 473 UUCUGUU C AGGUGUU 95 818 AGUAUAU C UGACUUU 144 480 CAGGUGU U AUCCACG 96 824 UCUGACU U UGAAAUU 145 481 AGGUGUU A UCCACGU 97 825 CUGACUU U GAAAUUC 146 483 GUGUUAU C CACGUGA 98 831 UUGAAAU U CCAACUU 147 521 ACGCUGU C CUGUGGU 99 832 UGAAAUU C CAACUUC 148 529 CUGUGGU C ACAAUGU 100 838 UCCAACU U CUAAUAU 149 537 ACAAUGU U UCUGUUG 101 839 CCAACUU C UAAUAUU 150 538 CAAUGUU U CUGUUGA 102 841 AACUUCU A AUAUUAG 151 539 AAUGUUU C UGUUGAA 103 844 UUCUAAU A UUAGAAG 152 543 UUUCUGU U GAAGAGC 104 846 CUAAUAU U AGAAGGA 153 562 ACAAACU C GCAUCUA 105 847 UAAUAUU A GAAGGAU 154 567 CUCGCAU C UACUGGC 106 855 GAAGGAU A AUUUGCU 155 569 CGCAUCU A CUGGCAA 107 858 GGAUAAU U UGCUCAA 156 601 GCUGACU A UGAUGUC 108 859 GAUAAUU U GCUCAAC 157 608 AUGAUGU C UGGGGAC 109 863 AUUUGCU C AACCUCU 158 622 CAUGAAU A UAUGGCC 110 869 UCAACCU C UGGAGGU 159 624 UGAAUAU A UGGCCCG 111 877 UGGAGGU U UUCCAGA 160 635 CCCGAGU A CAAGAAC 112 878 GGAGGUU U UCCAGAG 161 651 GGACCAU C UUUGAUA 113 879 GAGGUUU U CCAGAGC 162 653 ACCAUCU U UGAUAUC 114 880 AGGUUUU C CAGAGCC 163 654 CCAUCUU U GAUAUCA 115 889 AGAGCCU C ACCUCUC 164 658 CUUUGAU A UCACUAA 116 894 CUCACCU C UCCUGGU 165 660 UUGAUAU C ACUAAUA 117 896 CACCUCU C CUGGUUG 166 664 UAUCACU A AUAACCU 118 902 UCCUGGU U GGAAAAU 167 667 CACUAAU A ACCUCUC 119 920 GAAGAAU U AAAUGCC 168 672 AUAACCU C UCCAUUG 120 921 AAGAAUU A AAUGCCA 169 674 AACCUCU C CAUUGUG 121 930 AUGCCAU C AACACAA 170 678 UCUCCAU U GUGAUCC 122 942 CAACAGU U UCCCAAG 171 684 UUGUGAU C CUGGCUC 123 943 AACAGUU U CCCAAGA 172 691 CCUGGCU C UGCGCCC 124 944 ACAGUUU C CCAAGAU 173 701 CGCCCAU C UGACGAG 125 952 CCAAGAU C CUGAAAC 174 716 GGCACAU A CGAGUGU 126 966 CUGAGCU C UAUGCUG 175 726 AGUGUGU U GUUCUGA 127 968 GAGCUCU A UGCUGUU 176 729 GUGUUGU U CUGAAGU 128 975 AUGCUGU U AGCAGCA 177 730 UGUUGUU C UGAAGUA 129 976 UGCUGUU A GCAGCAA 178 737 CUGAAGU A UGAAAAA 130 991 ACUGGAU U UCAAUAU 179 751 AGACGCU U UCAAGCG 131 992 CUGGAUU U CAAUAUG 180 752 GACGCUU U CAAGCGG 132 993 UGGAUUU C AAUAUGA 181 753 ACGCUUU C AAGCGGG 133 997 UUUCAAU A UGACAAC 182 1016 CACAGCU U CAUGUGU 183 1315 CAUGGAU C GUGGGGA 232 1017 ACAGCUU C AUGUGUC 184 1324 UGGGGAU C AUGAGGC 233 1024 CAUGUGU C UCAUCAA 185 1334 GAGGCAU U CUUCCCU 234 1026 UGUGUCU C AUCAAGU 186 1335 AGGCAUU C UUCCCUU 235 1029 GUCUCAU C AAGUAUG 187 1337 GCAUUCU U CCCUUAA 236 1034 AUCAAGU A UGGACAU 188 1338 CAUUCUU C CCUUAAC 237 1042 UGGACAU U UAAGAGU 189 1342 CUUCCCU U AACAAAU 238 1043 GGACAUU U AAGAGUG 190 1343 UUCCCUU A ACAAAUU 239 1044 GACAUUU A AGAGUGA 191 1350 AACAAAU U UAAGCUG 240 1054 AGUGAAU C AGACCUU 192 1351 ACAAAUU U AAGCUGU 241 1061 CAGACCU U CAACUGG 193 1352 CAAAUUU A AGCUGUU 242 1062 AGACCUU C AACUGGA 194 1359 AAGCUGU U UUACCCA 243 1072 CUGGAAU A CAACCAA 195 1360 AGCUGUU U UACCCAC 244 1090 AGAGCAU U UUCCUGA 196 1361 GCUGUUU U ACCCACU 245 1091 GAGCAUU U UCCUGAU 197 1362 CUGUUUU A CCCACUA 246 1092 AGCAUUU U CCUGAUA 198 1369 ACCCACU A CCUCACC 247 1093 GCAUUUU C CUGAUAA 199 1373 ACUACCU C ACCUUCU 248 1099 UCCUGAU A ACCUGCU 200 1378 CUCACCU U CUUAAAA 249 1107 ACCUGCU C CCAUCCU 201 1379 UCACCUU C UUAAAAA 250 1112 CUCCCAU C CUGGGCC 202 1381 ACCUUCU U AAAAACC 251 1122 GGGCCAU U ACCUUAA 203 1382 CCUUCUU A AAAACCU 252 1123 GGCCAUU A CCUUAAU 204 1390 AAAACCU C UUUCAGA 253 1127 AUUACCU U AAUCUCA 205 1392 AACCUCU U UCAGAUU 254 1128 UUACCUU A AUCUCAG 206 1393 ACCUCUU U CAGAUUA 255 1131 CCUUAAU C UCAGUAA 207 1394 CCUCUUU C AGAUUAA 256 1133 UUAAUCU C AGUAAAU 208 1399 UUCAGAU U AAGCUGA 257 1137 UCUCAGU A AAUGGAA 209 1400 UCAGAUU A AGCUGAA 258 1146 AUGGAAU U UUUGUGA 210 1412 GAACAGU U ACAAGAU 259 1147 UGGAAUU U UUGUGAU 211 1413 AACAGUU A CAAGAUG 260 1148 GGAAUUU U UGUGAUA 212 1429 CUGGCAU C CCUCUCC 261 1149 GAAUUUU U GUGAUAU 213 1433 CAUCCCU C UCCUUUC 262 1155 UUGUGAU A UGCUGCC 214 1435 UCCCUCU C CUUUCUC 263 1169 CUGACCU A CUGCUUU 215 1438 CUCUCCU U UCUCCCC 264 1175 UACUGCU U UGCCCCA 216 1439 UCUCCUU U CUCCCCA 265 1176 ACUGCUU U GCCCCAA 217 1440 CUCCUUU C UCCCCAU 266 1214 GAGAGAU U GAGAAGG 218 1442 CCUUUCU C CCCAUAU 267 1230 AAAGUGU A CGCCCUG 219 1448 UCCCCAU A UGCAAUU 268 1239 GCCCUGU A UAACAGU 220 1455 AUGCAAU U UGCUUAA 269 1241 CCUGUAU A ACAGUGU 221 1456 UGCAAUU U GCUUAAU 270 1249 ACAGUGU C CGCAGAA 222 1460 AUUUGCU U AAUGUAA 271 1275 AAAAGAU C UGAAGGU 223 1461 UUUGCUU A AUGUAAC 272 1283 UGAAGGU A GCCUCCG 224 1466 UUAAUGU A ACCUCUU 273 1288 GUAGCCU C CGUCAUC 225 1471 GUAACCU C UUCUUUU 274 1292 CCUCCGU C AUCUCUU 226 1473 AACCUCU U CUUUUGC 275 1295 CCGUCAU C UCUUCUG 227 1474 ACCUCUU C UUUUGCC 276 1297 GUCAUCU C UUCUGGG 228 1476 CUCUUCU U UUGCCAU 277 1299 CAUCUCU U CUGGGAU 229 1477 UCUUCUU U UGCCAUG 278 1300 AUCUCUU C UGGGAUA 230 1478 CUUCUUU U GCCAUGU 279 1307 CUGGGAU A CAUGGAU 231 1486 GCCAUGU U UCCAUUC 280 1487 CCAUGUU U CCAUUCU 281 1488 CAUGUUU C CAUUCUG 282 1492 UUUCCAU U CUGCCAU 283 1493 UUCCAUU C UGCCAUC 284 1500 CUGCCAU C UUGAAUU 285 1502 GCCAUCU U GAAUUGU 286 1507 CUUGAAU U GUCUUGU 287 1510 GAAUUGU C UUGUCAG 288 1512 AUUGUCU U GUCAGCC 289 1515 GUCUUGU C AGCCAAU 290 1523 AGCCAAU U CAUUAUC 291 1524 GCCAAUU C AUUAUCU 292 1527 AAUUCAU U AUCUAUU 293 1528 AUUCAUU A UCUAUUA 294 1530 UCAUUAU C UAUUAAA 295 1532 AUUAUCU A UUAAACA 296 1534 UAUCUAU U AAACACU 297 1535 AUCUAUU A AACACUA 298 1542 AAACACU A AUUUGAG 299

TABLE III Human B7-1 Hammerhead Ribozyme Sequences nt. Position HH Ribozyme Sequence Seq. ID No. 8 CUUUACA CUGAUGAGGCCGAAAGGCCGAA AGGGUUU 300 12 GUUACUU CUGAUGAGGCCGAAAGGCCGAA ACAGAGG 301 17 CUUCUGU CUGAUGAGGCCGAAAGGCCGAA ACUUUAC 302 26 CCCUUCU CUGAUGAGGCCGAAAGGCCGAA ACUUCUG 303 27 CCCCUUC CUGAUGAGGCCGAAAGGCCGAA AACUUCU 304 41 GAGAGGC CUGAUGAGGCCGAAAGGCCGAA ACAUUUC 305 46 CUUCAGA CUGAUGAGGCCGAAAGGCCGAA AGGCGAC 306 48 AUCUUCA CUGAUGAGGCCGAAAGGCCGAA AGAGGCG 307 56 UUUGGGU CUGAUGAGGCCGAAAGGCCGAA AUCUUCA 308 57 CUUUGGG CUGAUGAGGCCGAAAGGCCGAA AAUCUUC 309 75 AAUGACA CUGAUGAGGCCGAAAGGCCGAA AUCACUU 310 76 CAAUGAC CUGAUGAGGCCGAAAGGCCGAA AAUCACU 311 79 AAGCAAU CUGAUGAGGCCGAAAGGCCGAA ACAAAUC 312 82 AUAAAGC CUGAUGAGGCCGAAAGGCCGAA AUGACAA 313 86 GUCUAUA CUGAUGAGGCCGAAAGGCCGAA AGCAAUG 314 87 AGUCUAU CUGAUGAGGCCGAAAGGCCGAA AAGCAAU 315 88 CAGUCUA CUGAUGAGGCCGAAAGGCCGAA AAAGCAA 316 90 UCUACCU CUGAUGAGGCCGAAAGGCCGAA AUAAAGC 317 97 CUCUUCU CUGAUGAGGCCGAAAGGCCGAA ACAGUCU 318 110 CUUCUGA CUGAUGAGGCCGAAAGGCCGAA AUGUUCU 319 112 CACUUCU CUGAUGAGGCCGAAAGGCCGAA AGAUGUU 320 124 AGGGUAA CUGAUGAGGCCGAAAGGCCGAA ACUCCAC 321 126 UCAGGGU CUGAUGAGGCCGAAAGGCCGAA AGACUCC 322 127 UUCAGGG CUGAUGAGGCCGAAAGGCCGAA AAGACUC 323 137 AUCCUUU CUGAUGAGGCCGAAAGGCCGAA AUUUCAG 324 145 UUCUUUA CUGAUGAGGCCGAAAGGCCGAA AUCCUUU 325 146 UUUCUUU CUGAUGAGGCCGAAAGGCCGAA AAUCCUU 326 147 UUUUCUU CUGAUGAGGCCGAAAGGCCGAA AAAUCCU 327 163 GAAGAAA CUGAUGAGGCCGAAAGGCCGAA AUUCCAC 328 164 UGAAGAA CUGAUGAGGCCGAAAGGCCGAA AAUUCCA 329 165 CUGAAGA CUGAUGAGGCCGAAAGGCCGAA AAAUUCC 330 166 GCUGAAG CUGAUGAGGCCGAAAGGCCGAA AAAAUUC 331 167 UGCUGAA CUGAUGAGGCCGAAAGGCCGAA AAAAAUU 332 169 CUUGCUG CUGAUGAGGCCGAAAGGCCGAA AGAAAAA 333 170 GCUUGCU CUGAUGAGGCCGAAAGGCCGAA AAGAAAA 334 187 GUGGAUU CUGAUGAGGCCGAAAGGCCGAA AGUUUCA 335 191 GGUUGUG CUGAUGAGGCCGAAAGGCCGAA AUUUAGU 336 200 GUCUCCA CUGAUGAGGCCGAAAGGCCGAA AGGUUGU 337 201 GGUCUCC CUGAUGAGGCCGAAAGGCCGAA AAGGUUG 338 221 GAGAUUG CUGAUGAGGCCGAAAGGCCGAA AGGGUGU 339 226 ACACAGA CUGAUGAGGCCGAAAGGCCGAA AUUGGAG 340 228 ACACACA CUGAUGAGGCCGAAAGGCCGAA AGAUUGG 341 236 UUUACAA CUGAUGAGGCCGAAAGGCCGAA ACACACA 342 237 GUUUACA CUGAUGAGGCCGAAAGGCCGAA AACACAC 343 238 UGUUUAC CUGAUGAGGCCGAAAGGCCGAA AAACACA 344 241 UGAUGUU CUGAUGAGGCCGAAAGGCCGAA ACAAAAC 345 247 CUCCAGU CUGAUGAGGCCGAAAGGCCGAA AUGUUUA 346 258 CGUAGAA CUGAUGAGGCCGAAAGGCCGAA ACCCUCC 347 260 CACGUAG CUGAUGAGGCCGAAAGGCCGAA AGACCCU 348 261 UCACGUA CUGAUGAGGCCGAAAGGCCGAA AAGACCC 349 263 GCUCACG CUGAUGAGGCCGAAAGGCCGAA AGAAGAC 350 274 ACAAUCC CUGAUGAGGCCGAAAGGCCGAA AUUGCUC 351 279 UGAUGAC CUGAUGAGGCCGAAAGGCCGAA AUCCAAU 352 282 GGCUGAU CUGAUGAGGCCGAAAGGCCGAA ACAAUCC 353 285 CAGGGCU CUGAUGAGGCCGAAAGGCCGAA AUGACAA 354 298 GGUGCAA CUGAUGAGGCCGAAAGGCCGAA ACAGGCA 355 299 AGGUGCA CUGAUGAGGCCGAAAGGCCGAA AACAGGC 356 300 CAGGUGC CUGAUGAGGCCGAAAGGCCGAA AAACAGG 357 322 CAAGUAA CUGAUGAGGCCGAAAGGCCGAA ACCAGGG 358 324 CCCAAGU CUGAUGAGGCCGAAAGGCCGAA AGACCAG 359 325 ACCCAAG CUGAUGAGGCCGAAAGGCCGAA AAGACCA 360 328 UGGACCC CUGAUGAGGCCGAAAGGCCGAA AGUAAGA 361 333 CAAUUUG CUGAUGAGGCCGAAAGGCCGAA ACCCAAG 362 339 AGCCAAC CUGAUGAGGCCGAAAGGCCGAA AUUUGGA 363 342 GAAAGCC CUGAUGAGGCCGAAAGGCCGAA ACAAUUU 364 347 AAAGUGA CUGAUGAGGCCGAAAGGCCGAA AGCCAAC 365 348 AAAAGUG CUGAUGAGGCCGAAAGGCCGAA AAGCCAA 366 349 CAAAAGU CUGAUGAGGCCGAAAGGCCGAA AAAGCCA 367 353 GGGUCAA CUGAUGAGGCCGAAAGGCCGAA AGUGAAA 368 354 AGGGUCA CUGAUGAGGCCGAAAGGCCGAA AAGUGAA 369 355 UAGGGUC CUGAUGAGGCCGAAAGGCCGAA AAAGUGA 370 362 AGAUGCU CUGAUGAGGCCGAAAGGCCGAA AGGGUCA 371 368 GGCUUCA CUGAUGAGGCCGAAAGGCCGAA AUGCUUA 372 404 GGAUGGU CUGAUGAGGCCGAAAGGCCGAA AUGUUCC 373 410 ACACUUG CUGAUGAGGCCGAAAGGCCGAA AUGGUGA 374 418 AGGUAUG CUGAUGAGGCCGAAAGGCCGAA ACACUUG 375 422 AUUGAGG CUGAUGAGGCCGAAAGGCCGAA AUGGACA 376 426 AGAAAUU CUGAUGAGGCCGAAAGGCCGAA AGGUAUG 377 430 UGAAAGA CUGAUGAGGCCGAAAGGCCGAA AUUGAGG 378 431 CUGAAAG CUGAUGAGGCCGAAAGGCCGAA AAUUGAG 379 432 GCUGAAA CUGAUGAGGCCGAAAGGCCGAA AAAUUGA 380 434 GAGCUGA CUGAUGAGGCCGAAAGGCCGAA AGAAAUU 381 435 AGAGCUG CUGAUGAGGCCGAAAGGCCGAA AAGAAAU 382 436 AAGAGCU CUGAUGAGGCCGAAAGGCCGAA AAAGAAA 383 441 GCACCAA CUGAUGAGGCCGAAAGGCCGAA AGCUGAA 384 443 CAGCACC CUGAUGAGGCCGAAAGGCCGAA AGAGCUG 385 457 UGAGAAA CUGAUGAGGCCGAAAGGCCGAA ACCAGCC 386 459 AGUGAGA CUGAUGAGGCCGAAAGGCCGAA AGACCAG 387 460 AAGUGAG CUGAUGAGGCCGAAAGGCCGAA AAGACCA 388 461 GAAGUGA CUGAUGAGGCCGAAAGGCCGAA AAAGACC 389 463 CAGAAGU CUGAUGAGGCCGAAAGGCCGAA AGAAAGA 390 467 UGAACAG CUGAUGAGGCCGAAAGGCCGAA AGUGAGA 391 468 CUGAACA CUGAUGAGGCCGAAAGGCCGAA AAGUGAG 392 472 ACACCUG CUGAUGAGGCCGAAAGGCCGAA ACAGAAG 393 473 AACACCU CUGAUGAGGCCGAAAGGCCGAA AACAGAA 394 480 CGUGGAU CUGAUGAGGCCGAAAGGCCGAA ACACCUG 395 481 ACGUGGA CUGAUGAGGCCGAAAGGCCGAA AACACCU 396 483 UCACGUG CUGAUGAGGCCGAAAGGCCGAA AUAACAC 397 521 ACCACAG CUGAUGAGGCCGAAAGGCCGAA ACAGCGU 398 529 ACAUUGU CUGAUGAGGCCGAAAGGCCGAA ACCACAG 399 537 CAACAGA CUGAUGAGGCCGAAAGGCCGAA ACAUUGU 400 538 UCAACAG CUGAUGAGGCCGAAAGGCCGAA AACAUUG 401 539 UUCAACA CUGAUGAGGCCGAAAGGCCGAA AAACAUU 402 543 GCUCUUC CUGAUGAGGCCGAAAGGCCGAA ACAGAAA 403 562 UAGAUGC CUGAUGAGGCCGAAAGGCCGAA AGUUUGU 404 567 GCCAGUA CUGAUGAGGCCGAAAGGCCGAA AUGCGAG 405 569 UUGCCAG CUGAUGAGGCCGAAAGGCCGAA AGAUGCG 406 601 GACAUCA CUGAUGAGGCCGAAAGGCCGAA AGUCAGC 407 608 GUCCCCA CUGAUGAGGCCGAAAGGCCGAA ACAUCAU 408 622 GGCCAUA CUGAUGAGGCCGAAAGGCCGAA AUUCAUG 409 624 CGGGCCA CUGAUGAGGCCGAAAGGCCGAA AUAUUCA 410 635 GUUCUUG CUGAUGAGGCCGAAAGGCCGAA ACUCGGG 411 651 UAUCAAA CUGAUGAGGCCGAAAGGCCGAA AUGGUCC 412 653 GAUAUCA CUGAUGAGGCCGAAAGGCCGAA AGAUGGU 413 654 UGAUAUC CUGAUGAGGCCGAAAGGCCGAA AAGAUGG 414 658 UUAGUGA CUGAUGAGGCCGAAAGGCCGAA AUCAAAG 415 660 UAUUAGU CUGAUGAGGCCGAAAGGCCGAA AUAUCAA 416 664 AGGUUAU CUGAUGAGGCCGAAAGGCCGAA AGUGAUA 417 667 GAGAGGU CUGAUGAGGCCGAAAGGCCGAA AUUAGUG 418 672 CAAUGGA CUGAUGAGGCCGAAAGGCCGAA AGGUUAU 419 674 CACAAUG CUGAUGAGGCCGAAAGGCCGAA AGAGGUU 420 678 GGAUCAC CUGAUGAGGCCGAAAGGCCGAA AUGGAGA 421 684 GAGCCAG CUGAUGAGGCCGAAAGGCCGAA AUCACAA 422 691 GGGCGCA CUGAUGAGGCCGAAAGGCCGAA AGCCAGG 423 701 CUCGUCA CUGAUGAGGCCGAAAGGCCGAA AUGGGCG 424 716 ACACUCG CUGAUGAGGCCGAAAGGCCGAA AUGUGCC 425 726 UCAGAAC CUGAUGAGGCCGAAAGGCCGAA ACACACU 426 729 ACUUCAG CUGAUGAGGCCGAAAGGCCGAA ACAACAC 427 730 UACUUCA CUGAUGAGGCCGAAAGGCCGAA AACAACA 428 737 UUUUUCA CUGAUGAGGCCGAAAGGCCGAA ACUUCAG 429 751 CGCUUGA CUGAUGAGGCCGAAAGGCCGAA AGCGUCU 430 752 CCGCUUG CUGAUGAGGCCGAAAGGCCGAA AAGCGUC 431 753 CCCGCUU CUGAUGAGGCCGAAAGGCCGAA AAAGCGU 432 782 GACUGAU CUGAUGAGGCCGAAAGGCCGAA ACGUCAC 433 783 UGACUGA CUGAUGAGGCCGAAAGGCCGAA AACGUCA 434 785 UUUGACU CUGAUGAGGCCGAAAGGCCGAA AUAACGU 435 789 CAGCUUU CUGAUGAGGCCGAAAGGCCGAA ACUGAUA 436 800 UGUAGGG CUGAUGAGGCCGAAAGGCCGAA AGUCAGC 437 801 GUGUAGG CUGAUGAGGCCGAAAGGCCGAA AAGUCAG 438 805 CUAGGUG CUGAUGAGGCCGAAAGGCCGAA AGGGAAG 439 811 GAUAUAC CUGAUGAGGCCGAAAGGCCGAA AGGUGUA 440 814 UCAGAUA CUGAUGAGGCCGAAAGGCCGAA ACUAGGU 441 816 AGUCAGA CUGAUGAGGCCGAAAGGCCGAA AUACUAG 442 818 AAAGUCA CUGAUGAGGCCGAAAGGCCGAA AUAUACU 443 824 AAUUUCA CUGAUGAGGCCGAAAGGCCGAA AGUCAGA 444 825 GAAUUUC CUGAUGAGGCCGAAAGGCCGAA AAGUCAG 445 831 AAGUUGG CUGAUGAGGCCGAAAGGCCGAA AUUUCAA 446 832 GAAGUUG CUGAUGAGGCCGAAAGGCCGAA AAUUUCA 447 838 AUAUUAG CUGAUGAGGCCGAAAGGCCGAA AGUUGGA 448 839 AAUAUUA CUGAUGAGGCCGAAAGGCCGAA AAGUUGG 449 841 CUAAUAU CUGAUGAGGCCGAAAGGCCGAA AGAAGUU 450 844 CUUCUAA CUGAUGAGGCCGAAAGGCCGAA AUUAGAA 451 846 UCCUUCU CUGAUGAGGCCGAAAGGCCGAA AUAUUAG 452 847 AUCCUUC CUGAUGAGGCCGAAAGGCCGAA AAUAUUA 453 855 AGCAAAU CUGAUGAGGCCGAAAGGCCGAA AUCCUUC 454 858 UUGAGCA CUGAUGAGGCCGAAAGGCCGAA AUUAUCC 455 859 GUUGAGC CUGAUGAGGCCGAAAGGCCGAA AAUUAUC 456 863 AGAGGUU CUGAUGAGGCCGAAAGGCCGAA AGCAAAU 457 869 ACCUCCA CUGAUGAGGCCGAAAGGCCGAA AGGUUGA 458 877 UCUGGAA CUGAUGAGGCCGAAAGGCCGAA ACCUCCA 459 878 CUCUGGA CUGAUGAGGCCGAAAGGCCGAA AACCUCC 460 879 GCUCUGG CUGAUGAGGCCGAAAGGCCGAA AAACCUC 461 880 GGCUCUG CUGAUGAGGCCGAAAGGCCGAA AAAACCU 462 889 GAGAGGU CUGAUGAGGCCGAAAGGCCGAA AGGCUCU 463 894 ACCAGGA CUGAUGAGGCCGAAAGGCCGAA AGGUGAG 464 896 CAACCAG CUGAUGAGGCCGAAAGGCCGAA AGAGGUG 465 902 AUUUUCC CUGAUGAGGCCGAAAGGCCGAA ACCAGGA 466 920 GGCAUUU CUGAUGAGGCCGAAAGGCCGAA AUUCUUC 467 921 UGGCAUU CUGAUGAGGCCGAAAGGCCGAA AAUUCUU 468 930 UUGUGUU CUGAUGAGGCCGAAAGGCCGAA AUGGCAU 469 942 CUUGGGA CUGAUGAGGCCGAAAGGCCGAA ACUGUUG 470 943 UCUUGGG CUGAUGAGGCCGAAAGGCCGAA AACUGUU 471 944 AUCUUGG CUGAUGAGGCCGAAAGGCCGAA AAACUGU 472 952 GUUUCAG CUGAUGAGGCCGAAAGGCCGAA AUCUUGG 473 966 CAGCAUA CUGAUGAGGCCGAAAGGCCGAA AGCUCAG 474 968 AACAGCA CUGAUGAGGCCGAAAGGCCGAA AGAGCUC 475 975 UGCUGCU CUGAUGAGGCCGAAAGGCCGAA ACAGCAU 476 976 UUGCUGC CUGAUGAGGCCGAAAGGCCGAA AACAGCA 477 991 AUAUUGA CUGAUGAGGCCGAAAGGCCGAA AUCCAGU 478 992 CAUAUUG CUGAUGAGGCCGAAAGGCCGAA AAUCCAG 479 993 UCAUAUU CUGAUGAGGCCGAAAGGCCGAA AAAUCCA 480 997 GUUGUCA CUGAUGAGGCCGAAAGGCCGAA AUUGAAA 481 1016 ACACAUG CUGAUGAGGCCGAAAGGCCGAA AGCUGUG 482 1017 GACACAU CUGAUGAGGCCGAAAGGCCGAA AAGCUGU 483 1024 UUGAUGA CUGAUGAGGCCGAAAGGCCGAA ACACAUG 484 1026 ACUUGAU CUGAUGAGGCCGAAAGGCCGAA AGACACA 485 1029 CAUACUU CUGAUGAGGCCGAAAGGCCGAA AUGAGAC 486 1034 AUGUCCA CUGAUGAGGCCGAAAGGCCGAA ACUUGAU 487 1042 ACUCUUA CUGAUGAGGCCGAAAGGCCGAA AUGUCCA 488 1043 CACUCUU CUGAUGAGGCCGAAAGGCCGAA AAUGUCC 489 1044 UCACUCU CUGAUGAGGCCGAAAGGCCGAA AAAUGUC 490 1054 AAGGUCU CUGAUGAGGCCGAAAGGCCGAA AUUCACU 491 1061 CCAGUUG CUGAUGAGGCCGAAAGGCCGAA AGGUCUG 492 1062 UCCAGUU CUGAUGAGGCCGAAAGGCCGAA AAGGUCU 493 1072 UUGGUUG CUGAUGAGGCCGAAAGGCCGAA AUUCCAG 494 1090 UCAGGAA CUGAUGAGGCCGAAAGGCCGAA AUGCUCU 495 1091 AUCAGGA CUGAUGAGGCCGAAAGGCCGAA AAUGCUC 496 1092 UAUCAGG CUGAUGAGGCCGAAAGGCCGAA AAAUGCU 497 1093 UUAUCAG CUGAUGAGGCCGAAAGGCCGAA AAAAUGC 498 1099 AGCAGGU CUGAUGAGGCCGAAAGGCCGAA AUCAGGA 499 1107 AGGAUGG CUGAUHGAGGCCGAAAGGCGAA AGCAGGU 500 1112 GGCCCAG CUGAUGAGGCCGAAAGGCCGAA AUGGGAG 501 1122 UUAAGGU CUGAUGAGGCCGAAAGGCCGAA AUGGCCC 502 1123 AUUAAGG CUGAUGAGGCCGAAAGGCCGAA AAUGGCC 503 1127 UGAGAUU CUGAUGAGGCCGAAAGGCCGAA AGGUAAU 504 1128 CUGAGAU CUGAUGAGGCCGAAAGGCCGAA AAGGUAA 505 1131 UUACUGA CUGAUGAGGCCGAAAGGCCGAA AUUAAGG 506 1133 AUUUACU CUGAUGAGGCCGAAAGGCCGAA AGAUUAA 507 1137 UUCCAUU CUGAUGAGGCCGAAAGGCCGAA ACUGAGA 508 1146 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AUUCCAU 509 1147 AUCACAA CUGAUGAGGCCGAAAGGCCGAA AAUUCCA 510 1148 UAUCACA CUGAUGAGGCCGAAAGGCCGAA AAAUUCC 511 1149 AUAUCAC CUGAUGAGGCCGAAAGGCCGAA AAAAUUC 512 1155 GGCAGCA CUGAUGAGGCCGAAAGGCCGAA AUCACAA 513 1169 AAAGCAG CUGAUGAGGCCGAAAGGCCGAA AGGUCAG 514 1175 UGGGGCA CUGAUGAGGCCGAAAGGCCGAA AGCAGUA 515 1176 UUGGGGC CUGAUGAGGCCGAAAGGCCGAA AAGCAGU 516 1214 CCUUCUC CUGAUGAGGCCGAAAGGCCGAA AUCUCUC 517 1230 CAGGGCG CUGAUGAGGCCGAAAGGCCGAA ACACUUU 518 1239 ACUGUUA CUGAUGAGGCCGAAAGGCCGAA ACAGGGC 519 1241 ACACUGU CUGAUGAGGCCGAAAGGCCGAA AUACAGG 520 1249 UUCUGCG CUGAUGAGGCCGAAAGGCCGAA ACACUGU 521 1275 ACCUUCA CUGAUGAGGCCGAAAGGCCGAA AUCUUUU 522 1283 CGGAGGC CUGAUGAGGCCGAAAGGCCGAA ACCUUCA 523 1288 GAUGACG CUGAUGAGGCCGAAAGGCCGAA AGGCUAC 524 1292 AAGAGAU CUGAUGAGGCCGAAAGGCCGAA ACGGAGG 525 1295 CAGAAGA CUGAUGAGGCCGAAAGGCCGAA AUGACGG 526 1297 CCCAGAA CUGAUGAGGCCGAAAGGCCGAA AGAUGAC 527 1299 AUCCCAG CUGAUGAGGCCGAAAGGCCGAA AGAGAUG 528 1300 UAUCCCA CUGAUGAGGCCGAAAGGCCGAA AAGAGAU 529 1307 AUCCAUG CUGAUGAGGCCGAAAGGCCGAA AUCCCAG 530 1315 UCCCCAC CUGAUGAGGCCGAAAGGCCGAA AUCCAUG 531 1324 GCCUCAU CUGAUGAGGCCGAAAGGCCGAA AUCCCCA 532 1334 AGGGAAG CUGAUGAGGCCGAAAGGCCGAA AUGCCUC 533 1335 AAGGGAA CUGAUGAGGCCGAAAGGCCGAA AAUGCCU 534 1337 UUAAGGG CUGAUGAGGCCGAAAGGCCGAA AGAAUGC 535 1338 GUUAAGG CUGAUGAGGCCGAAAGGCCGAA AAGAAUG 536 1342 AUUUGUU CUGAUGAGGCCGAAAGGCCGAA AGGGAAG 537 1343 AAUUUGU CUGAUGAGGCCGAAAGGCCGAA AAGGGAA 538 1350 CAGCUUA CUGAUGAGGCCGAAAGGCCGAA AUUUGUU 539 1351 ACAGCUU CUGAUGAGGCCGAAAGGCCGAA AAUUUGU 540 1352 AACAGCU CUGAUGAGGCCGAAAGGCCGAA AAAUUUG 541 1359 UGGGUAA CUGAUGAGGCCGAAAGGCCGAA ACAGCUU 542 1360 GUGGGUA CUGAUGAGGCCGAAAGGCCGAA AACAGCU 543 1361 AGUGGGU CUGAUGAGGCCGAAAGGCCGAA AAACAGC 544 1362 UAGUGGG CUGAUGAGGCCGAAAGGCCGAA AAAACAG 545 1369 GGUGAGG CUGAUGAGGCCGAAAGGCCGAA AGUGGGU 546 1373 AGAAGGU CUGAUGAGGCCGAAAGGCCGAA AGGUAGU 547 1378 UUUUAAG CUGAUGAGGCCGAAAGGCCGAA AGGUGAG 548 1379 UUUUUAA CUGAUGAGGCCGAAAGGCCGAA AAGGUGA 549 1381 GGUUUUU CUGAUGAGGCCGAAAGGCCGAA AGAAGGU 550 1382 AGGUUUU CUGAUGAGGCCGAAAGGCCGAA AAGAAGG 551 1390 UCUGAAA CUGAUGAGGCCGAAAGGCCGAA AGGUUUU 552 1392 AAUCUGA CUGAUGAGGCCGAAAGGCCGAA AGAGGUU 553 1393 UAAUCUG CUGAUGAGGCCGAAAGGCCGAA AAGAGGU 554 1394 UUAAUCU CUGAUGAGGCCGAAAGGCCGAA AAAGAGG 555 1399 UCAGCUU CUGAUGAGGCCGAAAGGCCGAA AUCUGAA 556 1400 UUCAGCU CUGAUGAGGCCGAAAGGCCGAA AAUCUGA 557 1412 AUCUUGU CUGAUGAGGCCGAAAGGCCGAA ACUGUUC 558 1413 CAUCUUG CUGAUGAGGCCGAAAGGCCGAA AACUGUU 559 1429 GGAGAGG CUGAUGAGGCCGAAAGGCCGAA AUGCCAG 560 1433 GAAAGGA CUGAUGAGGCCGAAAGGCCGAA AGGGAUG 561 1435 GAGAAAG CUGAUGAGGCCGAAAGGCCGAA AGAGGGA 562 1438 GGGGAGA CUGAUGAGGCCGAAAGGCCGAA AGGAGAG 563 1439 UGGGGAG CUGAUGAGGCCGAAAGGCCGAA AAGGAGA 564 1440 AUGGGGA CUGAUGAGGCCGAAAGGCCGAA AAAGGAG 565 1442 AUAUGGG CUGAUGAGGCCGAAAGGCCGAA AGAAAGG 566 1448 AAUUGCA CUGAUGAGGCCGAAAGGCCGAA AUGGGGA 567 1455 UUAAGCA CUGAUGAGGCCGAAAGGCCGAA AUUGCAU 568 1456 AUUAAGC CUGAUGAGGCCGAAAGGCCGAA AAUUGCA 569 1460 UUACAUU CUGAUGAGGCCGAAAGGCCGAA AGCAAAU 570 1461 GUUACAU CUGAUGAGGCCGAAAGGCCGAA AAGCAAA 571 1466 AAGAGGU CUGAUGAGGCCGAAAGGCCGAA ACAUUAA 572 1471 AAAAGAA CUGAUGAGGCCGAAAGGCCGAA AGGUUAC 573 1473 GCAAAAG CUGAUGAGGCCGAAAGGCCGAA AGAGGUU 574 1474 GGCAAAA CUGAUGAGGCCGAAAGGCCGAA AAGAGGU 575 1476 AUGGCAA CUGAUGAGGCCGAAAGGCCGAA AGAAGAG 576 1477 CAUGGCA CUGAUGAGGCCGAAAGGCCGAA AAGAAGA 577 1478 ACAUGGC CUGAUGAGGCCGAAAGGCCGAA AAAGAAG 578 1486 GAAUGGA CUGAUGAGGCCGAAAGGCCGAA ACAUGGC 579 1487 AGAAUGG CUGAUGAGGCCGAAAGGCCGAA AACAUGG 580 1488 CAGAAUG CUGAUGAGGCCGAAAGGCCGAA AAACAUG 581 1492 AUGGCAG CUGAUGAGGCCGAAAGGCCGAA AUGGAAA 582 1493 GAUGGCA CUGAUGAGGCCGAAAGGCCGAA AAUGGAA 583 1500 AAUUCAA CUGAUGAGGCCGAAAGGCCGAA AUGGCAG 584 1502 ACAAUUC CUGAUGAGGCCGAAAGGCCGAA AGAUGGC 585 1507 ACAAGAC CUGAUGAGGCCGAAAGGCCGAA AUUCAAG 586 1510 CUGACAA CUGAUGAGGCCGAAAGGCCGAA ACAAUUC 587 1512 GGCUGAC CUGAUGAGGCCGAAAGGCCGAA AGACAAU 588 1515 AUUGGCU CUGAUGAGGCCGAAAGGCCGAA ACAAGAC 589 1523 GAUAAUG CUGAUGAGGCCGAAAGGCCGAA AUUGGCU 590 1524 AGAUAAU CUGAUGAGGCCGAAAGGCCGAA AAUUGGC 591 1527 AAUAGAU CUGAUGAGGCCGAAAGGCCGAA AUGAAUU 592 1528 UAAUAGA CUGAUGAGGCCGAAAGGCCGAA AAUGAAU 593 1530 UUUAAUA CUGAUGAGGCCGAAAGGCCGAA AUAAUGA 594 1532 UGUUUAA CUGAUGAGGCCGAAAGGCCGAA AGAUAAU 595 1534 AGUGUUU CUGAUGAGGCCGAAAGGCCGAA AUAGAUA 596 1535 UAGUGUU CUGAUGAGGCCGAAAGGCCGAA AAUAGAU 597 1542 CUCAAAU CUGAUGAGGCCGAAAGGCCGAA AGUGUUU 598

TABLE 1V Mouse B7-1 Hammerhead Ribozyme Target Seguences nt. Seq. ID nt. Seq. ID Position HH Target Sequence No. Position HH Target Sequence No. 8 GaGUuUU a UACcUcA 599 108 CaUcUUU a GCAuCUG 641 10 guUuuAU A CCUCAAU 600 108 CAUcUUU a gcaUCUG 642 10 GUuUUaU a ccuCAAU 601 131 aUGCCAU C caGgcUU 643 14 uAUacCU c aAUAGAC 602 142 gCUuCUU U uUCuaCA 644 18 CcucAAU A gaCUCUu 603 142 gCuUCUU u UUcUaCa 645 18 CCUCaaU a gaCUCUU 604 143 CUuCUUU u UCuaCAU 646 18 CcUcAAU a GaCUcuU 605 143 CuUcUuU u uCuAcAU 647 23 AuaGaCU c uUACuaG 606 143 CUUCUUU U uCuAcaU 648 25 AGACuCU U aCuAGuu 607 143 cUUCuUU u UCUAcau 649 26 GACuCUU a CuAGuuu 608 144 UuCuUuU U cUaCAuC 650 29 UCUUACU a GuuUCuc 609 144 UuCuuuU u cUAcAUC 651 29 UcUuACU a gUuuCuC 610 144 UUCuuUU u cuaCAUC 652 29 UCUUaCU a guUUCUc 611 147 uUUUuCU a cAuCUCU 653 29 UCuuaCU a gUUUCUC 612 153 uAcAuCU C ugUUUCU 654 34 CUaGUuU c UCUuuuU 613 165 uCUCgAU U UuUgUgA 655 34 CUAGUuU c UCUuuuU 614 165 uCUcgAU u UuuGUgA 656 34 cUAgUuU c uCuUuUU 615 165 ucucgAU U UUUGUGA 657 40 ucuCUuU U UCAGgUU 616 166 CUCgAUU U uUgUgAG 658 41 cUCUuUU u caGGuUg 617 167 uCgAUuU u UGUGaGc 659 41 cuCUuUU U CAGgUUg 618 167 ucGauUU U UGUgAgC 660 42 uCUuUUU C AGgUUgu 619 167 UCgAUUU u UgUgAGC 661 56 UGAAACU c AAcCuuC 620 168 cGAUUuU u gUgAGCC 662 56 UGAAAcU C aAcCUUC 621 168 cgAUUUU U GUGAgcc 663 62 uCAACCU U caaAGAC 622 197 GCUccAU u GgCUcUA 664 62 UCaAcCU U CaAAgAc 623 202 aUUGGCU c UagaUUc 665 62 UCAACCU u caaAGac 624 208 UCuAgAU U ccUGGCU 666 63 CAACCUU c aaAGACa 625 216 CCUGGCU u UcCcCau 667 73 aGAcAcU c UGuUCcA 626 217 cUGGCUU U CcCcaUc 668 77 acUCUgU u cCAuUUC 627 217 cUgGCuU u CccCAUC 669 78 CucUGUU c CauUUCU 628 217 CUGGCuU u CCcCauC 670 83 UucCAuU U CUGUggA 629 218 UGGcuUU c ccCaUCA 671 93 GUggAcU A AuAGgAu 630 218 UGGCUUU C cCcaUca 672 93 gUgGacU a AUAGgaU 631 218 UGgCuUU c cCcaUCA 673 93 gUGgAcU a AuAGGAU 632 218 ugGcUUU c CCCAucA 674 96 GAcuAAU a GGAUcaU 633 224 UCcCCAU c aUGuUCu 675 96 gacuAAU a gGAuCaU 634 224 UccCCAU c aUGuucU 676 101 AUaGGAU c aUCuUuA 635 230 UCAugUU C UccAAAg 677 104 GGAuCAU C uuuAgCa 636 232 AuGUUcu C CAaAGCa 678 104 GGAuCAU C UUUagcA 637 232 AUGuUcU c caaAGCA 679 106 AuCAUCU U UagcAUC 638 232 AugUUCU c cAAAgCa 680 107 UcAuCuU u AGCAUCU 639 241 AAAGcAU c UgAAGcu 681 107 uCaUCUU u AgcAuCU 640 241 aAAGCAU C UGAAGCu 682 241 AAAgcAU C UGAAGcU 683 556 ACCuACU c uCUUAuC 732 249 UGAAgcU A UGGCuuG 684 556 AcCUAcU c ucUUAUC 733 264 CAAuUgU c AGuUGaU 685 560 AcUcUCU U aUCAuCC 734 287 CAcCaCU c CUcaagU 686 561 cUCuCUU a UcAuCCU 735 295 CUCaAgU u UCcaUGU 687 561 cuCUcuU a uCAUCCU 736 295 cuCAaGU U UCCAUgu 688 561 CUCUCuU a UCauCCu 737 296 uCAAgUU u ccAUgUc 689 566 UUaUcAU C CUGGgcC 738 297 CAAGUuU C CAUguCc 690 566 uUauCAU C CUGGGCC 739 297 CAaGuuU c cAUGuCC 691 581 UGGuCcU U UcAGAcc 740 314 GGCUcaU u cUUCUCU 692 583 gucCUUU C AgaCcGG 741 314 GgcuCAU U CUUCuCU 693 583 GuCcUUU c AGAccGg 742 315 GcuCAUU c UuCUcuU 694 598 GGCACAU A CagcUGU 743 315 gcuCAUU C UUCuCUU 695 608 gcUGUGU c GUUCaaA 744 317 uCAUUCU U CuCUUug 696 611 GUGUcgU u CAaaaGA 745 318 CAUUCUU C uCUUugu 697 611 GUGUcGU U CaaAAGa 746 318 CAUuCuU C UCuUUgu 698 612 UGUcGUU C aaAAGaA 747 320 uUCUUCU c uuUGuGC 699 641 aUGaAGU u aaACaCU 748 320 UUCUuCU C UUuGUGC 700 649 AAAcacU U GGCUUUa 749 322 CuuCUCU U uGUGCUG 701 649 AaaCAcU U gGCUUUA 750 322 CUucuCU u UgUGCUG 702 655 UUggcuU u AGUAAAg 751 323 UUcuCUU u gUGcugC 703 656 UGgcUUU a GUAAAgu 752 336 gcUGAUU c GUCuUUc 704 659 CuUuaGU A AAGUugu 753 341 uUCGuCU u UCacAAG 705 664 GUaAaGU U gUCcaUC 754 341 UUCgucU u UcAcAAG 706 667 AaGUUgU C caUCAAA 755 342 UcGUCUU U CaCAagU 707 671 UgUCcaU C AAAGCUG 756 343 cgucUuU C AcAAGUG 708 682 gCUgAcU u CuCuACC 757 343 cGuCuUU c AcaAGUG 709 682 GCUGACU U CuCUACc 758 352 caAGUGU C uuCAGAu 710 682 GCUGacU U cuCuACc 759 355 gUgUcUU C AGaUGUU 711 683 CUGACUU C uCUACcC 760 382 UCcaAGU c AgUGaAA 712 683 CUGACUU c ucuAccC 761 408 gCUGCcU U GCCguuA 713 685 gACUuCU c UaCCCCc 762 414 UUGccgU U aCAACUc 714 685 gaCUucU c UACCCcC 763 414 UUgCCgU u ACAAcUc 715 687 CUUCuCU A CcCCcAa 764 421 UaCAAcU c uCcUcAU 716 698 ccAACAU a ACUGagu 765 426 CUCuCCU c aUgAAgA 717 698 CCaacAU A ACuGaGU 766 439 GaUGAgU c UGAaGaC 718 718 AAcCCaU C UGcAgAc 767 452 acCGaAU C UACUGGC 719 718 aaCCCAU c UGCAgac 768 454 CGaAUCU A CUGGCAA 720 729 AGACacU A AaAgGAu 769 484 GUGCUgU c UGucaUU 721 729 agAcAcU A aAAGGAU 770 484 GugCUGU c UguCAuU 722 729 agACAcU a AaAgGAU 771 488 ugUcUGU C AUUGCUg 723 737 aAAGGAU u AccUGCU 772 503 gGAAacU A aAAGuGu 724 737 aAAGgAU U AccUGCu 773 503 ggAAAcU a AAagUGU 725 737 aaagGAU u ACCUGCU 774 520 CCCGAGU A uAAGAAC 726 745 aCCUGcU U UGCuuCc 775 535 cGGAcUU U aUaUGAc 727 745 accUGcU u UGCUuCC 776 536 GGAcUUU a UaUGAcA 728 759 cGggGgU U uCCCAAA 777 538 AcUuUAU a UGACaac 729 759 cGgGGGU u UcCcAaa 778 553 acuACCU a cUCUcUU 730 759 cGGgGGU U UcCCAaA 779 553 AcUaCcU a cUCUcUU 731 760 GggGgUU u CCCAAAG 780 760 gGGgGUU u cCCAaag 781 1060 aAAUgcU u cUGUaAG 830 760 GGgGGUU U cCCAaAG 782 1060 AAAugCU u cUgUaAG 831 761 GgGGUUU c CCAaAGC 783 1061 AAUGcUU C UGUaagc 832 771 aAAgccU C GCuUCUC 784 1080 AagcugU u UCAGAAG 833 771 AaAGCCU C gCuUCUC 785 1080 AAGCUGU U UcAgaag 834 776 CUCgCUU C UcUUggu 786 1081 AgCuGUU u CAgaAga 835 776 CUCgCuU C UCuUGGU 787 1121 acAGcCU U ACCuUcg 836 778 CgCuUCU C uUGGUUG 788 1121 AcAgCCU u aCCuUcG 837 784 UCuUGGU U GGAAAAU 789 1121 ACagCCU u ACCUUCg 838 803 GAGaaUU A CCugGcA 790 1122 CaGcCuU a cCUUCgG 839 803 gAGAAUU A ccUGgCA 791 1126 CUuACCU u CgGgccU 840 803 gagAaUU a CCUGgcA 792 1127 UUaCcUU c ggGcCUG 841 812 cUGgCAU C AAuACgA 793 1127 UuACcUU c GggCCUg 842 812 CUGGcAU c aAuaCgA 794 1144 GaagCAU U AgCUgAA 843 816 caUCAAU A cGACAAu 795 1144 gaAGcaU u AGCUGAA 844 816 cAUCaAU a cgACAaU 796 1145 aAgcAUU a GCUgAAC 845 824 CgACAaU U UCCCAgG 797 1160 AGAcCgU c UUCCUuu 846 825 gACAaUU U CCCAgGA 798 1162 AcCgUCU u CcUUuaG 847 826 ACAaUUU C CCAgGAU 799 1163 ccGUCUU c CUUuaGU 848 834 CCAgGAU C CUGAAuC 800 1167 cUUCcUU u AGuUCUU 849 841 CcUGaaU C ugAAUUG 801 1177 uUCUUCU c UguCCAU 850 841 cCUGAaU c UGAAuUg 802 1181 UCuCugU C CAuGUGg 851 850 gAAuUGU A CaCCaUu 803 1181 ucUCUGU c CAuGUGg 852 869 gccAaCU a gAUuUCA 804 1192 gUGGGAU A CAUGGua 853 869 GCCAaCU a GAuUUca 805 1199 aCaUGGU a UUAugUG 854 869 GCCAAcU a gaUuUCa 806 1201 AuGgUaU u aUGUGGc 855 873 acUaGAU u UCAaUAc 807 1210 ugUGGcU C aUGaGGu 856 873 ACUaGAU U UCAAUAc 808 1210 UGuGGcU C AUGAGGu 857 874 CUaGAUU U CAAUAcG 809 1223 GUacAAU c UUUCUUu 858 875 UaGAUUU C AAUAcGA 810 1225 ACAAUcU U UCUuUca 859 885 UAcgACU c gcAACCa 811 1225 ACAAuCU u uCuUucA 860 899 ACACCaU u aAgUgUC 812 1226 caAuCUU u cUuUCAG 861 899 ACAcCaU u AaGUGUC 813 1227 aAucUUU c uUUCAGC 862 906 UaaGUGU c UcaUUAA 814 1227 AAucuuU C UUUCAGc 863 906 uAaGUGU C UCAUuAA 815 1227 AAuCUuU c uUUcaGC 864 908 aGUGUCU C AUuAAaU 816 1229 ucUUUCU U UCAGCaC 865 911 GUCUCAU u AAaUAUG 817 1230 cUUUCUU U CAGCaCc 866 916 AUuAaaU a UGGaGAu 818 1252 cUgAUCU u UcggACA 867 916 AUuAAaU A UGGAgAU 819 1274 acaAGAU a gAGuUaA 868 943 gAGgaCU U CAcCUGG 820 1310 UGAgGaU u uCuUuCc 869 944 AGgaCUU C AcCUGGg 821 1312 aGgAUUU c UuUcCAu 870 1001 UGCUcUU u GggGCAg 822 1314 gAUUUcU u UcCAuCA 871 1034 CAGucGU c gUCauCG 823 1316 UUUcUuU c CAuCAgG 872 1037 UcGUCgU C AuCguUG 824 1320 UUUcCaU C AGgAAGC 873 1043 uCAUCgU U GucAUCA 825 1320 UUUCcaU c aggaAGC 874 1046 ucgUUGU c AuCAUCA 826 1339 GgCAagU u UgCUGGG 875 1049 uUguCaU c AuCAAAU 827 1355 cUuUgAU U GCUUgAU 876 1060 aAAUGcU U CUGUaag 828 1437 gUGguaU A aGAAAAA 877 1060 AAaUgCU u cUgUaAG 829 1437 gUggUAU a AGAAaaA 878 1475 gCCUAGU c UuaCUGc 879 1477 CUaGUCU U ACUgCaa 880 1487 ugCAaCU U gAUaUGU 881 1491 ACuUGAU a UGUCAUg 882 1491 aCUUgaU a UguCAUG 883 1505 gUUUGgU U ggUGUcu 884 1530 uGCCcUU u uCUgAAg 885 1531 GcccUUU u CUGAagA 886 1532 CcCuUuU C UGAAGAg 887 1644 CcCuuuU C UGAaGAG 888 1652 CUaUGGU u gggAUGU 889 1652 ggGAuGU a AaAAcGG 890 1670 GgGAugU a aAaAcGG 891 1674 aUaAUAU a AaUAuUA 892 1676 uAuAAAU a UuAaaUa 893 1677 UaAaUAU u aAaUAAA 894 1677 AAauAUU a AAuaAAA 895 1694 AaaUAUU A AAuAaaA 896

TABLE V Mouse B7-1 Hammerhead Ribozyme Sequences nt. Seq. ID Position HH Ribozyme Sequences No.    8 UGAGGUA CUGAUGAGGCCGAAAGGCCGAA AAAACUC  898   10 AUUGAGG CUGAUGAGGCCGAAAGGCCGAA AUAAAAC  899   10 AUUGAGG CUGAUGAGGCCGAAAGGCCGAA AUAAAAC  900   14 GUCUAUU CUGAUGAGGCCGAAAGGCCGAA AGGUAUA  901   18 AAGAGUC CUGAUGAGGCCGAAAGGCCGAA AUUGAGG  902   18 AAGAGUC CUGAUGAGGCCGAAAGGCCGAA AUUGAGG  903   18 AAGAGUC CUGAUGAGGCCGAAAGGCCGAA AUUGAGG  904   23 CUAGUAA CUGAUGAGGCCGAAAGGCCGAA AGUCUAU  905   25 AACUAGU CUGAUGAGGCCGAAAGGCCGAA AGAGUCU  906   26 AAACUAG CUGAUGAGGCCGAAAGGCCGAA AAGAGUC  907   29 GAGAAAC CUGAUGAGGCCGAAAGGCCGAA AGUAAGA  908   29 GAGAAAC CUGAUGAGGCCGAAAGGCCGAA AGUAAGA  909   29 GAGAAAC CUGAUGAGGCCGAAAGGCCGAA AGUAAGA  910   29 GAGAAAC CUGAUGAGGCCGAAAGGCCGAA AGUAAGA  911   34 AAAAAGA CUGAUGAGGCCGAAAGGCCGAA AAACUAG  912   34 AAAAAGA CUGAUGAGGCCGAAAGGCCGAA AAACUAG  913   34 AAAAAGA CUGAUGAGGCCGAAAGGCCGAA AAACUAG  914   40 AACCUGA CUGAUGAGGCCGAAAGGCCGAA AAAGAGA  915   41 CAACCUG CUGAUGAGGCCGAAAGGCCGAA AAAAGAG  916   41 CAACCUG CUGAUGAGGCCGAAAGGCCGAA AAAAGAG  917   42 ACAACCU CUGAUGAGGCCGAAAGGCCGAA AAAAAGA  918   56 GAAGGUU CUGAUGAGGCCGAAAGGCCGAA AGUUUCA  919   56 GAAGGUU CUGAUGAGGCCGAAAGGCCGAA AGUUUCA  920   62 GUCUUUG CUGAUGAGGCCGAAAGGCCGAA AGGUUGA  921   62 GUCUUUG CUGAUGAGGCCGAAAGGCCGAA AGGUUGA  922   62 GUCUUUG CUGAUGAGGCCGAAAGGCCGAA AGGUUGA  923   63 UGUCUUU CUGAUGAGGCCGAAAGGCCGAA AAGGUUG  924   73 UGGAACA CUGAUGAGGCCGAAAGGCCGAA AGUGUCU  925   77 GAAAUGG CUGAUGAGGCCGAAAGGCCGAA ACAGAGU  926   78 AGAAAUG CUGAUGAGGCCGAAAGGCCGAA AACAGAG  927   83 UCCACAG CUGAUGAGGCCGAAAGGCCGAA AAUGGAA  928   93 AUCCUAU CUGAUGAGGCCGAAAGGCCGAA AGUCCAC  929   93 AUCCUAU CUGAUGAGGCCGAAAGGCCGAA AGUCCAC  930   93 AUCCUAU CUGAUGAGGCCGAAAGGCCGAA AGUCCAC  931   96 AUGAUCC CUGAUGAGGCCGAAAGGCCGAA AUUAGUC  932   96 AUGAUCC CUGAUGAGGCCGAAAGGCCGAA AUUAGUC  933  101 UAAAGAU CUGAUGAGGCCGAAAGGCCGAA AUCCUAU  934  104 UGCUAAA CUGAUGAGGCCGAAAGGCCGAA AUGAUCC  935  104 UGCUAAA CUGAUGAGGCCGAAAGGCCGAA AUGAUCC  936  106 GAUGCUA CUGAUGAGGCCGAAAGGCCGAA AGAUGAU  937  107 AGAUGCU CUGAUGAGGCCGAAAGGCCGAA AAGAUGA  938  107 AGAUGCU CUGAUGAGGCCGAAAGGCCGAA AAGAUGA  939  108 CAGAUGC CUGAUGAGGCCGAAAGGCCGAA AAAGAUG  940  108 CAGAUGC CUGAUGAGGCCGAAAGGCCGAA AAAGAUG  941  131 AAGCCUG CUGAUGAGGCCGAAAGGCCGAA AUGGCAU  942  142 UGUAGAA CUGAUGAGGCCGAAAGGCCGAA AAGAAGC  943  142 UGUAGAA CUGAUGAGGCCGAAAGGCCGAA AAGAAGC  944  143 AUGUAGA CUGAUGAGGCCGAAAGGCCGAA AAAGAAG  945  143 AUGUAGA CUGAUGAGGCCGAAAGGCCGAA AAAGAAG  946  143 AUGUAGA CUGAUGAGGCCGAAAGGCCGAA AAAGAAG  947  143 AUGUAGA CUGAUGAGGCCGAAAGGCCGAA AAAGAAG  948  144 GAUGUAG CUGAUGAGGCCGAAAGGCCGAA AAAAGAA  949  144 GAUGUAG CUGAUGAGGCCGAAAGGCCGAA AAAAGAA  950  144 GAUGUAG CUGAUGAGGCCGAAAGGCCGAA AAAAGAA  951  147 AGAGAUG CUGAUGAGGCCGAAAGGCCGAA AGAAAAA  952  153 AGAAACA CUGAUGAGGCCGAAAGGCCGAA AGAUGUA  953  165 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AUCGAGA  954  165 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AUCGAGA  955  165 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AUCGAGA  956  166 CUCACAA CUGAUGAGGCCGAAAGGCCGAA AAUCGAG  957  167 GCUCACA CUGAUGAGGCCGAAAGGCCGAA AAAUCGA  958  167 GCUCACA CUGAUGAGGCCGAAAGGCCGAA AAAUCGA  959  167 GCUCACA CUGAUGAGGCCGAAAGGCCGAA AAAUCGA  960  168 GGCUCAC CUGAUGAGGCCGAAAGGCCGAA AAAAUCG  961  168 GGCUCAC CUGAUGAGGCCGAAAGGCCGAA AAAAUCG  962  197 UAGAGCC CUGAUGAGGCCGAAAGGCCGAA AUGGAGC  963  202 GAAUCUA CUGAUGAGGCCGAAAGGCCGAA AGCCAAU  964  208 AGCCAGG CUGAUGAGGCCGAAAGGCCGAA AUCUAGA  965  216 AUGGGGA CUGAUGAGGCCGAAAGGCCGAA AGCCAGG  966  217 GAUGGGG CUGAUGAGGCCGAAAGGCCGAA AAGCCAG  967  217 GAUGGGG CUGAUGAGGCCGAAAGGCCGAA AAGCCAG  968  217 GAUGGGG CUGAUGAGGCCGAAAGGCCGAA AAGCCAG  969  218 UGAUGGG CUGAUGAGGCCGAAAGGCCGAA AAAGCCA  970  218 UGAUGGG CUGAUGAGGCCGAAAGGCCGAA AAAGCCA  971  218 UGAUGGG CUGAUGAGGCCGAAAGGCCGAA AAAGCGA  972  218 UGAUGGG CUGAUGAGGCCGAAAGGCCGAA AAAGCCA  973  224 AGAACAU CUGAUGAGGCCGAAAGGCCGAA AUGGGGA  974  224 AGAACAU UGAUGAGGCCGAAAGGCCGAAA AUGGGGA  975  230 CUUUGGA CUGAUGAGGCCGAAAGGCCGAA AACAUGA  976  232 UGCUUUG CUGAUGAGGCCGAAAGGCCGAA AGAACAU  977  232 UGCUUUG CUGAUGAGGCCGAAAGGCCGAA AGAACAU  978  232 UGCUUUG CUGAUGAGGCCGAAAGGCCGAA AGAACAU  979  241 AGCUUCA CUGAUGAGGCCGAAAGGCCGAA AUGCUUU  980  241 AGCUUCA CUGAUGAGGCCGAAAGGCCGAA AUGCUUU  981  241 AGCUUCA CUGAUGAGGCCGAAAGGCCGAA AUGCUUU  982  249 CAAGCCA CUGAUGAGGCCGAAAGGCCGAA AGCUUCA  983  264 AUCAACU CUGAUGAGGCCGAAAGGCCGAA ACAAUUG  984  287 ACUUGAG CUGAUGAGGCCGAAAGGCCGAA AGUGGUG  985  295 ACAUGGA CUGAUGAGGCCGAAAGGCCGAA ACUUGAG  966  295 ACAUGGA CUGAUGAGGCCGAAAGGCCGAA ACUUGAG  987  296 GACAUGG CUGAUGAGGCCGAAAGGCCGAA AACUUGA  988  297 GGACAUG CUGAUGAGGCCGAAAGGCCGAA AAACUUG  989  297 GGACAUG CUGAUGAGGCCGAAAGGCCGAA AAACUUG  990  314 AGAGAAG CUGAUGAGGCCGAAAGGCCGAA AUGAGCC  991  314 AGAGAAG CUGAUGAGGCCGAAAGGCCGAA AUGAGCC  992  315 AAGAGAA CUGAUGAGGCCGAAAGGCCGAA AAUGAGC  993  315 AAGAGAA CUGAUGAGGCCGAAAGGCCGAA AAUGAGC  994  317 CAAAGAG CUGAUGAGGCCGAAAGGCCGAA AGAAUGA  995  318 ACAAAGA CUGAUGAGGCCGAAAGGCCGAA AAGAAUG  996  318 ACAAAGA CUGAUGAGGCCGAAAGGCCGAA AAGAAUG  997  320 GCACAAA CUGAUGAGGCCGAAAGGCCGAA AGAAGAA  998  320 GCACAAA CUGAUGAGGCCGAAAGGCCGAA AGAAGAA  999  322 CAGCACA CUGAUGAGGCCGAAAGGCCGAA AGAGAAG 1000  322 CAGCACA CUGAUGAGGCCGAAAGGCCGAA AGAGAAG 1001  323 GCAGCAC CUGAUGAGGCCGAAAGGCCGAA AAGAGAA 1002  336 GAAAGAC CUGAUGAGGCCGAAAGGCCGAA AAUCAGC 1003  341 CUUGUGA CUGAUGAGGCCGAAAGGCCGAA AGACGAA 1004  341 CUUGUGA CUGAUGAGGCCGAAAGGCCGAA AGACGAA 1005  342 ACUUGUG CUGAUGAGGCCGAAAGGCCGAA AAGACGA 1006  343 CACUUGU CUGAUGAGGCCGAAAGGCCGAA AAAGACG 1007  343 CACUUGU CUGAUGAGGCCGAAAGGCCGAA AAAGACG 1008  352 AUCUGAA CUGAUGAGGCCGAAAGGCCGAA ACACUUG 1009  355 AACAUCU CUGAUGAGGCCGAAAGGCCGAA AAGACAC 1010  382 UUUCACU CUGAUGAGGCCGAAAGGCCGAA ACUUGGA 1011  408 UAACGGC CUGAUGAGGCCGAAAGGCCGAA AGGCAGC 1012  414 GAGUUGU CUGAUGAGGCCGAAAGGCCGAA ACGGCAA 1013  414 GAGUUGU CUGAUGAGGCCGAAAGGCCGAA ACGGCAA 1014  421 AUGAGGA CUGAUGAGGCCGAAAGGCCGAA AGUUGUA 1015  426 UCUUCAU CUGAUGAGGCCGAAAGGCCGAA AGGAGAG 1016  439 GUCUUCA CUGAUGAGGCCGAAAGGCCGAA ACUCAUC 1017  452 GCCAGUA CUGAUGAGGCCGAAAGGCCGAA AUUCGGU 1018  454 UUGCCAG CUGAUGAGGCCGAAAGGCCGAA AGAUUCG 1019  484 AAUGACA CUGAUGAGGCCGAAAGGCCGAA ACAGCAC 1020  484 AAUGACA CUGAUGAGGCCGAAAGGCCGAA ACAGCAC 1021  488 CAGCAAU CUGAUGAGGCCGAAAGGCCGAA ACAGACA 1022  503 ACACUUU CUGAUGAGGCCGAAAGGCCGAA AGUUUCC 1023  503 ACACUUU CUGAUGAGGCCGAAAGGCCGAA AGUUUCC 1024  520 GUUCUUA CUGAUGAGGCCGAAAGGCCGAA ACUCGGG 1025  535 GUCAUAU CUGAUGAGGCCGAAAGGCCGAA AAGUCCG 1026  536 UGUCAUA CUGAUGAGGCCGAAAGGCCGAA AAAGUCC 1027  538 GUUGUCA CUGAUGAGGCCGAAAGGCCGAA AUAAAGU 1028  553 AAGAGAG CUGAUGAGGCCGAAAGGCCGAA AGGUAGU 1029  553 AAGAGAG CUGAUGAGGCCGAAAGGCCGAA AGGUAGU 1030  556 GAUAAGA CUGAUGAGGCCGAAAGGCCGAA AGUAGGU 1031  556 GAUAAGA CUGAUGAGGCCGAAAGGCCGAA AGUAGGU 1032  560 GGAUGAU CUGAUGAGGCCGAAAGGCCGAA AGAGAGU 1033  561 AGGAUGA CUGAUGAGGCCGAAAGGCCGAA AAGAGAG 1034  561 AGGAUGA CUGAUGAGGCCGAAAGGCCGAA AAGAGAG 1035  561 AGGAUGA CUGAUGAGGCCGAAAGGCCGAA AAGAGAG 1036  566 GGCCCAG CUGAUGAGGCCGAAAGGCCGAA AUGAUAA 1037  566 GGCCCAG CUGAUGAGGCCGAAAGGCCGAA AUGAUAA 1038  581 GGUCUGA CUGAUGAGGCCGAAAGGCCGAA AGGACCA 1039  583 CCGGUCU CUGAUGAGGCCGAAAGGCCGAA AAAGGAC 1040  583 CCGGUCU CUGAUGAGGCCGAAAGGCCGAA AAAGGAC 1041  598 ACAGCUG CUGAUGAGGCCGAAAGGCCGAA AUGUGCC 1042  608 UUUGAAC CUGAUGAGGCCGAAAGGCCGAA ACACAGC 1043  611 UCUUUUG CUGAUGAGGCCGAAAGGCCGAA ACGACAC 1044  611 UCUUUUG CUGAUGAGGCCGAAAGGCCGAA ACGACAC 1045  612 UUCUUUU CUGAUGAGGCCGAAAGGCCGAA AACGACA 1046  641 AGUGUUU CUGAUGAGGCCGAAAGGCCGAA ACUUCAU 1047  649 UAAAGCC CUGAUGAGGCCGAAAGGCCGAA AGUGUUU 1048  649 UAAAGCC CUGAUGAGGCCGAAAGGCCGAA AGUGUUU 1049  655 CUUUACU CUGAUGAGGCCGAAAGGCCdAA AAGCCAA 1050  656 ACUUUAC CUGAUGAGGCCGAAAGGCCGAA AAAGCCA 1051  659 ACAACUU CUGAUGAGGCCGAAAGGCCGAA ACUAAAG 1052  664 GAUGGAC CUGAUGAGGCCGAAAGGCCGAA ACUUUAC 1053  667 UUUGAUG CUGAUGAGGCCGAAAGGCCGAA ACAACUU 1054  671 CAGCUUU CUGAUGAGGCCGAAAGGCCGAA AUGGACA 1055  682 GGUAGAG CUGAUGAGGCCGAAAGGCCGAA AGUCAGC 1056  682 GGUAGAG CUGAUGAGGCCGAAAGGCCGAA AGUCAGC 1057  682 GGUAGAG CUGAUGAGGCCGAAAGGCCGAA AGUCAGC 1058  683 GGGUAGA CUGAUGAGGCCGAAAGGCCGAA AAGUCAG 1059  683 GGGUAGA CUGAUGAGGCCGAAAGGCCGAA AAGUCAG 1060  685 GGGGGUA CUGAUGAGGCCGAAAGGCCGAA AGAAGUC 1061  685 GGGGGUA CUGAUGAGGCCGAAAGGCCGAA AGAAGUC 1062  687 UUGGGGG CUGAUGAGGCCGAAAGGCCGAA AGAGAAG 1063  698 ACUCAGU CUGAUGAGGCCGAAAGGCCGAA AUGUUGG 1064  698 ACUCAGU CUGAUGAGGCCGAAAGGCCGAA AUGUUGG 1065  718 GUCUGCA CUGAUGAGGCCGAAAGGCCGAA AUGGGUU 1066  718 GUCUGCA CUGAUGAGGCCGAAAGGCCGAA AUGGGUU 1067  729 AUCCUUU CUGAUGAGGCCGAAAGGCCGAA AGUGUCU 1068  729 AUCCUUU CUGAUGAGGCCGAAAGGCCGAA AGUGUCU 1069  729 AUCCUUU CUGAUGAGGCCGAAAGGCCGAA AGUGUCU 1070  737 AGCAGGU CUGAUGAGGCCGAAAGGCCGAA AUCCUUU 1071  737 AGCAGGU CUGAUGAGGCCGAAAGGCCGAA AUCCUUU 1072  737 AGCAGGU CUGAUGAGGCCGAAAGGCCGAA AUCCUUU 1073  745 GGAAGCA CUGAUGAGGCCGAAAGGCCGAA AGCAGGU 1074  745 GGAAGCA CUGAUGAGGCCGAAAGGCCGAA AGCAGGU 1075  759 UUUGGGA CUGAUGAGGCCGAAAGGCCGAA ACCCCCG 1076  759 UUUGGGA CUGAUGAGGCCGAAAGGCCGAA ACCCCCG 1077  759 UUUGGGA CUGAUGAGGCCGAAAGGCCGAA ACCCCCG 1078  760 CUUUGGG CUGAUGAGGCCGAAAGGCCGAA AACCCCC 1079  760 CUUUGGG CUGAUGAGGCCGAAAGGCCGAA AACCCCC 1080  760 CUUUGGG CUGAUGAGGCCGAAAGGCCGAA AACCCCC 1081  761 GCUUUGG CUGAUGAGGCCGAAAGGCCGAA AAACCCC 1082  771 GAGAAGC CUGAUGAGGCCGAAAGGCCGAA AGGCUUU 1083  771 GAGAAGC CUGAUGAGGCCGAAAGGCCGAA AGGCUUU 1084  776 ACCAAGA CUGAUGAGGCCGAAAGGCCGAA AAGCGAG 1085  776 ACCAAGA CUGAUGAGGCCGAAAGGCCGAA AAGCGAG 1086  778 CAACCAA CUGAUGAGGCCGAAAGGCCGAA AGAAGCG 1087  784 AUUUUCC CUGAUGAGGCCGAAAGGCCGAA ACCAAGA 1088  803 UGCCAGG CUGAUGAGGCCGAAAGGCCGAA AAUUCUC 1089  803 UGCCAGG CUGAUGAGGCCGAAAGGCCGAA AAUUCUC 1090  803 UGCCAGG CUGAUGAGGCCGAAAGGCCGAA AAUUCUC 1091  812 UCGUAUU CUGAUGAGGCCGAAAGGCCGAA AUGCCAG 1092  812 UCGUAUU CUGAUGAGGCCGAAAGGCCGAA AUGCCAG 1093  816 AUUGUCG CUGAUGAGGCCGAAAGGCCGAA AUUGAUG 1094  816 AUUGUCG CUGAUGAGGCCGAAAGGCCGAA AUUGAUG 1095  824 CCUGGGA CUGAUGAGGCCGAAAGGCCGAA AUUGUCG 1096  825 UCCUGGG CUGAUGAGGCCGAAAGGCCGAA AAUUGUC 1097  826 AUCCUGG CUGAUGAGGCCGAAAGGCCGAA AAAUUGU 1098  834 GAUUCAG CUGAUGAGGCCGAAAGGCCGAA AUCCUGG 1099  841 CAAUUCA CUGAUGAGGCCGAAAGGCCGAA AUUCAGG 1100  841 CAAUUCA CUGAUGAGGCCGAAAGGCCGAA AUUCAGG 1101  850 AAUGGUG CUGAUGAGGCCGAAAGGCCGAA ACAAUUC 1102  869 UGAAAUC CUGAUGAGGCCGAAAGGCCGAA AGUUGGC 1103  869 UGAAAUC CUGAUGAGGCCGAAAGGCCGAA AGUUGGC 1104  869 UGAAAUC CUGAUGAGGCCGAAAGGCCGAA AGUUGGC 1105  873 GUAUUGA CUGAUGAGGCCGAAAGGCCGAA AUCUAGU 1106  873 GUAUUGA CUGAUGAGGCCGAAAGGCCGAA AUCUAGU 1107  874 CGUAUUG CUGAUGAGGCCGAAAGGCCGAA AAUCUAG 1108  875 UCGUAUU CUGAUGAGGCCGAAAGGCCGAA AAAUCUA 1109  885 UGGUUGC CUGAUGAGGCCGAAAGGCCGAA AGUCGUA 1110  899 GACACUU CUGAUGAGGCCGAAAGGCCGAA AUGGUGU 1111  899 GACACUU CUGAUGAGGCCGAAAGGCCGAA AUGGUGU 1112  906 UUAAUGA CUGAUGAGGCCGAAAGGCCGAA ACACUUA 1113  906 UUAAUGA CUGAUGAGGCCGAAAGGCCGAA ACACUUA 1114  908 AUUUAAU CUGAUGAGGCCGAAAGGCCGAA AGACACU 1115  911 CAUAUUU CUGAUGAGGCCGAAAGGCCGAA AUGAGAC 1116  916 AUCUCCA CUGAUGAGGCCGAAAGGCCGAA AUUUAAU 1117  916 AUCUCCA CUGAUGAGGCCGAAAGGCCGAA AUUUAAU 1118  943 CCAGGUG CUGAUGAGGCCGAAAGGCCGAA AGUCCUC 1119  944 CCCAGGU CUGAUGAGGCCGAAAGGCCGAA AAGUCCU 1120 1001 CUGCCCC CUGAUGAGGCCGAAAGGCCGAA AAGAGCA 1121 1034 CGAUGAC CUGAUGAGGCCGAAAGGCCGAA ACGACUG 1122 1037 CAACGAU CUGAUGAGGCCGAAAGGCCGAA ACGACGA 1123 1043 UGAUGAC CUGAUGAGGCCGAAAGGCCGAA ACGAUGA 1124 1046 UGAUGAU CUGAUGAGGCCGAAAGGCCGAA ACAACGA 1125 1049 AUUUGAU CUGAUGAGGCCGAAAGGCCGAA AUGACAA 1126 1060 CUUACAG CUGAUGAGGCCGAAAGGCCGAA AGCAUUU 1127 1060 CUUACAG CUGAUGAGGCCGAAAGGCCGAA AGCAUUU 1128 1060 CUUACAG CUGAUGAGGCCGAAAGGCCGAA AGCAUUU 1129 1060 CUUACAG CUGAUGAGGCCGAAAGGCCGAA AGCAUUU 1130 1061 GCUUACA CUGAUGAGGCCGAAAGGCCGAA AAGCAUU 1131 1080 CUUCUGA CUGAUGAGGCCGAAAGGCCGAA ACAGCUU 1132 1080 CUUCUGA CUGAUGAGGCCGAAAGGCCGAA ACAGCUU 1133 1081 UCUUCUG CUGAUGAGGCCGAAAGGCCGAA AACAGCU 1134 1121 CGAAGGU CUGAUGAGGCCGAAAGGCCGAA AGGCUGU 1135 1121 CGAAGGU CUGAUGAGGCCGAAAGGCCGAA AGGCUGU 1136 1121 CGAAGGU CUGAUGAGGCCGAAAGGCCGAA AGGCUGU 1137 1122 CCGAAGG CUGAUGAGGCCGAAAGGCCGAA AAGGCUG 1138 1126 AGGCCCG CUGAUGAGGCCGAAAGGCCGAA AGGUAAG 1139 1127 CAGGCCC CUGAUGAGGCCGAAAGGCCGAA AAGGUAA 1140 1127 CAGGCCC CUGAUGAGGCCGAAAGGCCGAA AAGGUAA 1141 1144 UUCAGCU CUGAUGAGGCCGAAAGGCCGAA AUGCUUC 1142 1144 UUCAGCU CUGAUGAGGCCGAAAGGCCGAA AUGCUUC 1143 1145 GUUCAGC CUGAUGAGGCCGAAAGGCCGAA AAUGCUU 1144 1160 AAAGGAA CUGAUGAGGCCGAAAGGCCGAA ACGGUCU 1145 1162 CUAAAGG CUGAUGAGGCCGAAAGGCCGAA AGACGGU 1146 1163 ACUAAAG CUGAUGAGGCCGAAAGGCCGAA AAGACGG 1147 1167 AAGAACU CUGAUGAGGCCGAAAGGCCGAA AAGGAAG 1148 1177 AUGGACA CUGAUGAGGCCGAAAGGCCGAA AGAAGAA 1149 1181 CCACAUG CUGAUGAGGCCGAAAGGCCGAA ACAGAGA 1150 1181 CCACAUG CUGAUGAGGCCGAAAGGCCGAA ACAGAGA 1151 1192 UACCAUG CUGAUGAGGCCGAAAGGCCGAA AUCCCAC 1152 1199 CACAUAA CUGAUGAGGCCGAAAGGCCGAA ACCAUGU 1153 1201 GCCAGAU CUGAUGAGGCCGAAAGGCCGAA AUACCAU 1154 1210 ACCUCAU CUGAUGAGGCCGAAAGGCCGAA AGCCACA 1155 1210 ACCUCAU CUGAUGAGGCCGAAAGGCCGAA AGCCACA 1156 1223 AAAGAAA CUGAUGAGGCCGAAAGGCCGAA AUUGUAC 1157 1225 UGAAAGA CUGAUGAGGCCGAAAGGCCGAA AGAUUGU 1158 1225 UGAAAGA CUGAUGAGGCCGAAAGGCCGAA AGAUUGU 1159 1226 CUGAAAG CUGAUGAGGCCGAAAGGCCGAA AAGAUUG 1160 1227 GCUGAAA CUGAUGAGGCCGAAAGGCCGAA AAAGAUU 1161 1227 GCUGAAA CUGAUGAGGCCGAAAGGCCGAA AAAGAUU 1162 1227 GCUGAAA CUGAUGAGGCCGAAAGGCCGAA AAAGAUU 1163 1229 GUGCUGA CUGAUGAGGCCGAAAGGCCGAA AGAAAGA 1164 1230 GGUGCUG CUGAUGAGGCCGAAAGGCCGAA AAGAAAG 1165 1252 UGUCCGA CUGAUGAGGCCGAAAGGCCGAA AGAUCAG 1166 1274 UUAACUC CUGAUGAGGCCGAAAGGCCGAA AUCUUGU 1167 1310 GGAAAGA CUGAUGAGGCCGAAAGGCCGAA AUCCUCA 1168 1312 AUGGAAA CUGAUGAGGCCGAAAGGCCGAA AAAUCCU 1169 1314 UGAUGGA CUGAUGAGGCCGAAAGGCCGAA AGAAAUC 1170 1316 CCUGAUG CUGAUGAGGCCGAAAGGCCGAA AAAGAAA 1171 1320 GCUUCCU CUGAUGAGGCCGAAAGGCCGAA AUGGAAA 1172 1320 GCUUCCU CUGAUGAGGCCGAAAGGCCGAA AUGGAAA 1173 1339 CCCAGCA CUGAUGAGGCCGAAAGGCCGAA ACUUGCC 1174 1355 AUCAAGC CUGAUGAGGCCGAAAGGCCGAA AUCAAAG 1175 1437 UUUUUCU CUGAUGAGGCCGAAAGGCCGAA AUACCAC 1176 1437 UUUUUCU CUGAUGAGGCCGAAAGGCCGAA AUACCAC 1177 1475 GCAGUAA CUGAUGAGGCCGAAAGGCCGAA ACUAGGC 1178 1477 UUGCAGU CUGAUGAGGCCGAAAGGCCGAA AGACUAG 1179 1487 ACAUAUC CUGAUGAGGCCGAAAGGCCGAA AGUUGCA 1180 1491 CAUGACA CUGAUGAGGCCGAAAGGCCGAA AUCAAGU 1181 1491 CAUGACA CUGAUGAGGCCGAAAGGCCGAA AUCAAGU 1182 1505 AGACACC CUGAUGAGGCCGAAAGGCCGAA ACCAAAC 1183 1530 CUUCAGA CUGAUGAGGCCGAAAGGCCGAA AAGGGCA 1184 1531 UCUUCAG CUGAUGAGGCCGAAAGGCCGAA AAAGGGC 1185 1532 CUCUUCA CUGAUGAGGCCGAAAGGCCGAA AAAAGGG 1186 1532 CUCUUCA CUGAUGAGGCCGAAAGGCCGAA AAAAGGG 1187 1644 ACAUCCC CUGAUGAGGCCGAAAGGCCGAA ACCAUAG 1188 1652 CCGUUUU CUGAUGAGGCCGAAAGGCCGAA ACAUCCC 1189 1652 CCGUUUU CUGAUGAGGCCGAAAGGCCGAA ACAUCCC 1190 1670 UAAUAUU CUGAUGAGGCCGAAAGGCCGAA AUAUUAU 1191 1674 UAUUUAA CUGAUGAGGCCGAAAGGCCGAA AUUUAUA 1192 1676 UUUAUUU CUGAUGAGGCCGAAAGGCCGAA AUAUUUA 1193 1677 UUUUAUU CUGAUGAGGCCGAAAGGCCGAA AAUAUUU 1194 1677 UUUUAUU CUGAUGAGGCCGAAAGGCCGAA AAUAUUU 1195 1694 UUUGCUC CUGAUGAGGCCGAAAGGCCGAA AUACUCU 1196

TABLE VI Human B7-2 Hammerhead Ribozyme Sequences nt. Seq. ID nt. Seq. ID Position HH Target Sequence No. Position HH Target Sequence No.   16 GAAAGCU U UGCUUCU 1197 271 UAGUAGU A UUUUGGC 1239   17 AAAGCUU U GCUUCUC 1198 273 GUAGUAU U UUGGCAG 1240   21 CUUUGCU U CUCUGCU 1199 274 UAGUAUU U UGGCAGG 1241   22 UUUGCUU C UCUGCUG 1206 275 AGUAUUU U GGCAGGA 1242   24 UGCUUCU C UGCUGCU 1201 294 GAAAACU U GGUUCUG 1243   34 CUGCUGU A ACAGGGA 1202 298 ACUUGGU U CUGAAUG 1244   44 AGGGACU A GCACAGA 1203 299 CUUGGUU C UGAAUGA 1245   70 GUGGGGU C AUUUCCA 1204 310 AUGAGGU A UACUUAG 1246   73 GGGUCAU U UCCAGAU 1205 312 GAGGUAU A CUUAGGC 1247   74 GGUCAUU U CCAGAUA 1206 315 GUAUACU U AGGCAAA 1248   75 GUCAUUU C CAGAUAU 1207 316 UAUACUU A GGCAAAG 1249   81 UCCAGAU A UUAGGUC 1208 330 GAGAAAU U UGACAGU 1250   83 CAGAUAU U AGGUCAC 1209 331 AGAAAUU U GACAGUG 1251   84 AGAUAUU A GGUCACA 1210 340 ACAGUGU U CAUUCCA 1252   88 AUUAGGU C ACAGCAG 1211 341 CAGUGUU C AUUCCAA 1253  113 AAUGGAU C CCCAGUG 1212 344 UGUUCAU U CCAAGUA 1254  125 GUGCACU A UGGGACU 1213 345 GUUCAUU C CAAGUAU 1255  137 ACUGAGU A ACAUUCU 1214 351 UCCAAGU A UAUGGGC 1256  142 GUAACAU U CUCUUUG 1215 353 CAAGUAU A UGGGCCG 1257  143 UAACAUU C UCUUUGU 1216 368 CACAAGU U UUGAUUC 1258  145 ACAUUCU C UUUGUGA 1217 369 ACAAGUU U UGAUUCG 1259  147 AUUCUCU U UGUGAUG 1218 370 CAAGUUU U GAUUCGG 1260  148 UUCUCUU U GUGAUGG 1219 374 UUUUGAU U CGGACAG 1261  159 AUGGCCU U CCUGCUC 1220 375 UUUGAUU C GGACAGU 1262  160 UGGCCUU C CUGCUCU 1221 383 GGACAGU U GGACCCU 1263  166 UCCUGCU C UCUGGUG 1222 397 UGAGACU U CACAAUC 1264  168 CUGCUCU C UGGUGCU 1223 398 GAGACUU C ACAAUCU 1265  179 UGCUGCU C CUCUGAA 1224 404 UCACAAU C UUCAGAU 1266  182 UGCUCCU C UGAAGAU 1225 406 ACAAUCU U CAGAUCA 1267  190 UGAAGAU U CAAGCUU 1226 407 CAAUCUU C AGAUCAA 1268  191 GAAGAUU C AAGCUUA 1227 412 UUCAGAU C AAGGACA 1269  197 UCAAGCU U AUUUCAA 1228 426 AAGGGCU U GUAUCAA 1270  198 CAAGCUU A UUUCAAU 1229 429 GGCUUGU A UCAAUGU 1271  200 AGCUUAU U UCAAUGA 1230 431 CUUGUAU C AAUGUAU 1272  201 GCUUAUU U CAAUGAG 1231 437 UCAAUGU A UCAUCCA 1273  202 CUUAUUU C AAUGAGA 1232 439 AAUGUAU C AUCCAUC 1274  231 UGCCAAU U UGCAAAC 1233 442 GUAUCAU C CAUCACA 1275  232 GCCAAUU U GCAAACU 1234 446 CAUCCAU C ACAAAAA 1276  240 GCAAACU C UCAAAAC 1235 469 GAAUGAU U CGCAUCC 1277  242 AAACUCU C AAAACCA 1236 470 AAUGAUU C GCAUCCA 1278  265 GUGAGCU A GUAGUAU 1237 475 UUCGCAU C CACCAGA 1279  268 AGCUAGU A GUAUUUU 1238 488 GAUGAAU U CUGAACU 1280  489 AUGAAUU C UGAACUG 1281 721 UGUCUGU U UCAUUCC 1330  498 GAACUGU C AGUGCUU 1282 722 GUCUGUU U CAUUCCC 1331  505 CAGUGCU U GCUAACU 1283 723 UCUGUUU C AUUCCCU 1332  509 GCUUGCU A ACUUCAG 1284 726 GUUUCAU U CCCUGAU 1333  513 GCUAACU U CAGUCAA 1285 727 UUUCAUU C CCUGAUG 1334  514 CUAACUU C AGUCAAC 1286 736 CUGAUGU U ACGAGCA 1335  518 CUUCAGU C AACCUGA 1287 737 UGAUGUU A CGAGCAA 1336  529 CUGAAAU A GUACCAA 1288 746 GAGCAAU A UGACCAU 1337  532 AAAUAGU A CCAAUUU 1289 754 UGACCAU C UUCUGUA 1338  538 UACCAAU U UCUAAUA 1290 756 ACCAUCU U CUGUAUU 1339  539 ACCAAUU U CUAAUAU 1291 757 CCAUCUU C UGUAUUC 1340  540 CCAAUUU C UAAUAUA 1292 761 CUUCUGU A UUCUGGA 1341  542 AAUUUCU A AUAUAAC 1293 763 UCUGUAU U CUGGAAA 1342  545 UUCUAAU A UAACAGA 1294 764 CUGUAUU C UGGAAAC 1343  547 CUAAUAU A ACAGAAA 1235 787 CGCGGCU U UUAUCUU 1344  561 AAUGUGU A CAUAAAU 1296 788 GCGGCUU U UAUCUUC 1345  565 UGUACAU A AAUUUGA 1297 789 CGGCUUU U AUCUUCA 1346  569 CAUAAAU U UGACCUG 1298 790 GGCUUUU A UCUUCAC 1347  570 AUAAAUU U GACCUGC 1299 792 CUUUUAU C UUCACCU 1348  579 ACCUGCU C AUCUAUA 1300 794 UUUAUCU U CACCUUU 1349  582 UGCUCAU C UAUACAC 1301 795 UUAUCUU C ACCUUUC 1350  584 CUCAUCU A UACACGG 1302 800 UUCACCU U UCUCUAU 1351  586 CAUCUAU A CACCGUU 1303 801 UCACCUU U CUCUAUA 1352  593 ACACGGU U ACCCAGA 1304 802 CACCUUU C UCUAUAG 1353  594 CACGGUU A CCCAGAA 1305 804 CCUUUCU C UAUAGAG 1354  605 AGAACCU A AGAAGAU 1306 806 UUUCUCU A UAGAGCU 1355  619 UGAGUGU U UUGCUAA 1307 808 UCUCUAU A GAGCUUG 1356  620 GAGUGUU U UGCUAAG 1308 814 UAGAGCU U GAGGACC 1357  621 AGUGUUU U GCUAAGA 1309 824 GGACCCU C AGCCUCC 1358  625 UUUUGCU A AGAACCA 1310 830 UCAGCCU C CCCCAGA 1359  638 CAAGAAU U CAACUAU 1311 844 ACCACAU U CCUUGGA 1360  639 AAGAAUU C AACUAUC 1312 845 CCACAUU C CUUGGAU 1361  644 UUCAACU A UCGAGUA 1313 848 CAUUCCU U GGAUUAC 1362  646 CAACUAU C GAGUAUG 1314 853 CUUGGAU U ACAGCUG 1363  651 AUCGAGU A UGAUGGU 1315 854 UUGGAUU A CAGCUGU 1364  659 UGAUGGU A UUAUGCA 1316 862 CAGCUGU A CUUCCAA 1365  661 AUGGUAU U AUGCAGA 1317 865 CUGUACU U CCAACAG 1366  662 UGGUAUU A UGCAGAA 1318 866 UGUACUU C CAACAGU 1367  672 CAGAAAU C UCAAGAU 1319 874 CAACAGU U AUUAUAU 1368  674 GAAAUCU C AAGAUAA 1320 875 AACAGUU A UUAUAUG 1369  680 UCAAGAU A AUGUCAC 1321 877 CAGUUAU U AUAUGUG     1370  685 AUAAUGU C ACAGAAC 1322 878 AGUUAUU A UAUGUGU     1371  696 GAACUGU A CGACGUU 1323 880 UUAUUAU A UGUGUGA     1372  703 ACGACGU U UCCAUCA 1324 892 UGAUGGU U UUCUGUC     1373  704 CGACGUU U CCAUCAG 1325 893 GAUGGUU U UCUGUCU     1374  705 GACGUUU C CAUCAGC 1326 894 AUGGUUU U CUGUCUA     1375  709 UUUCCAU C AGCUUGU 1327 895 UGGUUUU C UGUCUAA     1376  714 AUCAGCU U GUCUGUU 1328 899 UUUCUGU C UAAUUCU     1377  717 AGCUUGU C UGUUUCA 1329 901 UCUGUCU A AUUCUAU     1378  904 GUCUAAU U CUAUGGA 1379  905 UCUAAUU C UAUGGAA 1380  907 UAAUUCU A UGGAAAU 1381  935 GCGGCCU C GCAACUC 1382  942 CGCAACU C UUAUAAA 1383  944 CAACUCU U AUAAAUG 1384  945 AACUCUU A UAAAUGU 1385  947 CUCUUAU A AAUGUGG 1386 1009 AAAAAAU C CAUAUAC 1387 1013 AAUCCAU A UACCUGA 1388 1015 UCCAUAU A CCUGAAA 1389 1026 GAAAGAU U GAUGAA 1390 1045 AGCGUGU U UUUAAAA 1391 1046 GCGUGUU U UUAAAAG 1392 1047 CGUGUUU U UAAAAGU 1393 1048 GUGUUUU U AAAAGUU 1394 1049 UGUUUUU A AAAGUUC 1395 1055 UAAAAGU U CGAAGAC 1396 1056 AAAAGUU C GAAGACA 1397 1065 AAGACAU C UUCAUGC 1398 1067 GACAUCU U CAUGCGA 1399 1068 ACAUCUU C AUGCGAC 1400 1085 AAGUGAU A CAUGUUU 1401 1091 UACAUGU U UUUAAUU 1402 1092 ACAUGUU U UUAAUUA 1403 1093 CAUGUUU U UAAUUAA 1404 1094 AUGUUUU U AAUUAAA 1405 1095 UGUUUUU A AUUAAAG 1406 1098 UUUUAAU U AAAGAGU 1407 1099 UUUAAUU A AAGAGUA 1408

TABLE VII Human B7-2 Hammerhead Ribozyme Sequences nt. Seq. Id Position HH Ribozyme Sequences No.  16 AGAAGCA CUGAUGAGGCCGAAAGGCCGAA AGCUUUC 1409  17 GAGAAGC CUGAUGAGGCCGAAAGGCCGAA AAGCUUU 1410  21 AGCAGAG CUGAUGAGGCCGAAAGGCCGAA AGCAAAG 1411  22 CAGCAGA CUGAUGAGGCCGAAAGGCCGAA AAGCAAA 1412  24 AGCAGCA CUGAUGAGGCCGAAAGGCCGAA AGAAGCA 1413  34 UCCCUGU CUGAUGAGGCCGAAAGGCCGAA ACAGCAG 1414  44 UCUGUGC CUGAUGAGGCCGAAAGGCCGAA AGUCCCU 1415  70 UGGAAAU CUGAUGAGGCCGAAAGGCCGAA ACCCCAC 1416  73 AUCUGGA CUGAUGAGGCCGAAAGGCCGAA AUGACCC 1417  74 UAUCUGG CUGAUGAGGCCGAAAGGCCGAA AAUGACC 1418  75 AUAUCUG CUGAUGAGGCCGAAAGGCCGAA AAAUGAC 1419  81 GACCUAA CUGAUGAGGCCGAAAGGCCGAA AUCUGGA 1420  83 GUGACCU CUGAUGAGGCCGAAAGGCCGAA AUAUCUG 1421  84 UGUGACC CUGAUGAGGCCGAAAGGCCGAA AAUAUCU 1422  88 CUGCUGU CUGAUGAGGCCGAAAGGCCGAA ACCUAAU 1423 113 CACUGGG CUGAUGAGGCCGAAAGGCCGAA AUCCAUU 1424 125 AGUCCCA CUGAUGAGGCCGAAAGGCCGAA AGUGCAC 1425 137 AGAAUGU CUGAUGAGGCCGAAAGGCCGAA ACUCAGU 1426 142 CAAAGAG CUGAUGAGGCCGAAAGGCCGAA AUGUUAC 1427 143 ACAAAGA CUGAUGAGGCCGAAAGGCCGAA AAUGUUA 1428 145 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AGAAUGU 1429 147 CAUCACA CUGAUGAGGCCGAAAGGCCGAA AGAGAAU 1430 148 CCAUCAC CUGAUGAGGCCGAAAGGCCGAA AAGAGAA 1431 159 GAGCAGG CUGAUGAGGCCGAAAGGCCGAA AGGCCAU 1432 166 AGAGCAG CUGAUGAGGCCGAAAGGCCGAA AAGGCCA 1433 166 CACCAGA CUGAUGAGGCCGAAAGGCCGAA AGCAGGA 1434 168 AGCACCA CUGAUGAGGCCGAAAGGCCGAA AGAGCAG 1435 179 UUCAGAG CUGAUGAGGCCGAAAGGCCGAA AGCAGCA 1436 182 AUCUUCA CUGAUGAGGCCGAAAGGCCGAA AGGAGCA 1437 190 AAGCUUG CUGAUGAGGCCGAAAGGCCGAA AUCUUCA 1438 191 UAAGCUU CUGAUGAGGCCGAAAGGCCGAA AAUCUUC 1439 197 UUGAAAU CUGAUGAGGCCGAAAGGCCGAA AGCUUGA 1440 198 AUUGAAA CUGAUGAGGCCGAAAGGCCGAA AAGCUUG 1441 200 UCAUUGA CUGAUGAGGCCGAAAGGCCGAA AUAAGCU 1442 201 CUCAUUG CUGAUGAGGCCGAAAGGCCGAA AAUAAGC 1443 202 UCUCAUU CUGAUGAGGCCGAAAGGCCGAA AAAUAAG 1444 231 GUUUGCA CUGAUGAGGCCGAAAGGCCGAA AUUGGCA 1445 232 AGUUUGC CUGAUGAGGCCGAAAGGCCGAA AAUUGGC 1446 240 GUUUUGA CUGAUGAGGCCGAAAGGCCGAA AGUUUGC 1447 242 UGGUUUU CUGAUGAGGCCGAAAGGCCGAA AGAGUUU 1448 265 AUACUAC CUGAUGAGGCCGAAAGGCCGAA AGCUCAC 1449 268 AAAAUAC CUGAUGAGGCCGAAAGGCCGAA ACUAGCU 1450 271 GCCAAAA CUGAUGAGGCCGAAAGGCCGAA ACUACUA 1451 273 CUGCCAA CUGAUGAGGCCGAAAGGCCGAA AUACUAC 1452 274 CCUGCCA CUGAUGAGGCCGAAAGGC&GAA AAUACUA 1453 275 UCCUGCC CUGAUGAGGCCGAAAGGCCGAA AAAUACU 1454 294 CAGAACC CUGAUGAGGCCGAAAGGCCGAA AGUUUUC 1455 298 CAUUCAG CUGAUGAGGCCGAAAGGCCGAA ACCAAGU 1456 299 UCAUUCA CUGAUGAGGCCGAAAGGCCGAA AACCAAG 1457 310 CUAAGUA CUGAUGAGGCCGAAAGGCCGAA ACCUCAU 1458 312 GCCUAAG CUGAUGAGGCCGAAAGGCCGAA AUACCUC 1459 315 UUUGCCU CUGAUGAGGCCGAAAGGCCGAA AGUAUAC 1460 316 CUUUGCC CUGAUGAGGCCGAAAGGCCGAA AAGUAUA 1461 330 ACUGUCA CUGAUGAGGCCGAAAGGCCGAA AUUUCUC 1462 331 CACUGUC CUGAUGAGGCCGAAAGGCCGAA AAUUUCU 1463 340 UGGAAUG CUGAUGAGGCCGAAAGGCCGAA ACACUGU 1464 341 UUGGAAU CUGAUGAGGCCGAAAGGCCGAA AACACUG 1465 344 UACUUGG CUGAUGAGGCCGAAAGGCCGAA AUGAACA 1466 345 AUACUUG CUGAUGAGGCCGAAAGGCCGAA AAUGAAC 1467 351 GCCCAUA CUGAUGAGGCCGAAAGGCCGAA ACUUGGA 1468 353 CGGCCCA CUGAUGAGGCCGAAAGGCCGAA AUACUUG 1469 368 GAAUCAA CUGAUGAGGCCGAAAGGCCGAA ACUUGUG 1470 369 CGAAUCA CUGAUGAGGCCGAAAGGCCGAA AACUUGU 1471 370 CCGAAUC CUGAUGAGGCCGAAAGGCCGAA AAACUUG 1472 374 CUGUCCG CUGAUGAGGCCGAAAGGCCGAA AUCAAAA 1473 375 ACUGUCC CUGAUGAGGCCGAAAGGCCGAA AAUCAAA 1474 383 AGGGUCC CUGAUGAGGCGAAAGGCCGAAA ACUGUCC 1475 397 GAUUGUG CUGAUGAGGCCGAAAGGCCGAA AGUCUCA 1476 398 AGAUUGU CUGAUGAGGCCGAAAGGCCGAA AAGUCUC 1477 404 AUCUGAA CUGAUGAGGCCGAAAGGCCGAA AUUGUGA 1478 406 UGAUCUG CUGAUGAGGCCGAAAGGCCGAA AGAUUGU 1479 407 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AAGAUUG 1480 412 UGUCCUU CUGAUGAGGCCGAAAGGCCGAA AUCUGAA 1481 426 UUGAUAC CUGAUGAGGCCGAAAGGCCGAA AGCCCUU 1482 429 ACAUUGA CUGAUGAGGCCGAAAGGCCGAA ACAAGCC 1483 431 AUACAUU CUGAUGAGGCCGAAAGGCCGAA AUACAAG 1484 437 UGGAUGA CUGAUGAGGCCGAAAGGCCGAA ACAUUGA 1485 439 GAUGGAU CUGAUGAGGCCGAAAGGCCGAA AUACAUU 1486 442 UGUGAUG CUGAUGAGGCCGAAAGGCCGAA AUGAUAC 1487 446 UUUUUGU CUGAUGAGGCCGAAAGGCCGAA AUGGAUG 1488 469 GGAUGCG CUGAUGAGGCCGAAAGGCCGAA AUCAUUC 1489 470 UGGAUGC CUGAUGAGGCCGAAAGGCCGAA AAUCAUU 1490 475 UCUGGUG CUGAUGAGGCCGAAAGGCCGAA AUGCGAA 1491 488 AGUUCAG CUGAUGAGGCCGAAAGGCCGAA AUUCAUC 1492 489 CAGUUCA CUGAUGAGGCCGAAAGGCCGAA AAUUCAU 1493 498 AAGCACU CUGAUGAGGCCGAAAGGCCGAA ACAGUUC 1494 505 AGUUAGC CUGAUGAGGCCGAAAGGCCGAA AGCACUG 1495 509 CUGAAGU CUGAUGAGGCCGAAAGGCCGAA AGCAAGC 1496 513 UUGACUG CUGAUGAGGCCGAAAGGCCGAA AGUUAGC 1497 514 GUUGACU CUGAUGAGGCCGAAAGGCCGAA AAGUUAG 1498 518 UCAGGUU CUGAUGAGGCCGAAAGGCCGAA ACUGAAG 1499 529 UUGGUAC CUGAUGAGGCCGAAAGGCCGAA AUUUCAG 1500 532 AAAUUGG CUGAUGAGGCCGAAAGGCCGAA ACUAUUU 1501 538 UAUUAGA CUGAUGAGGCCGAAAGGCCGAA AUUGGUA 1502 539 AUAUUAG CUGAUGAGGCCGAAAGGCCGAA AAUUGGU 1503 540 UAUAUUA CUGAUGAGGCCGAAAGGCCGAA AAAUUGG 1504 542 GUUAUAU CUGAUGAGGCCGAAAGGCCGAA AGAAAUU 1505 545 UCUGUUA CUGAUGAGGCCGAAAGGCCGAA AUUAGAA 1506 547 UUUCUGU CUGAUGAGGCCGAAAGGCCGAA AUAUUAG 1507 561 AUUUAUG CUGAUGAGGCCGAAAGGCCGAA ACACAUU 1508 565 UCAAAUU CUGAUGAGGCCGAAAGGCCGAA AUGUACA 1509 569 CAGGUCA CUGAUGAGGCCGAAAGGCCGAA AUUUAUG 1510 570 GCAGGUC CUGAUGAGGCCGAAAGGCCGAA AAUUUAU 1511 579 UAUAGAU CUGAUGAGGCCGAAAGGCCGAA AGCAGGU 1512 582 GUGUAUA CUGAUGAGGCCGAAAGGCCGAA AUGAGCA 1513 584 CCGUGUA CUGAUGAGGCCGAAAGGCCGAA AGAUGAG 1514 586 AACCGUG CUGAUGAGGCCGAAAGGCCGAA AUAGAUG 1515 593 UCUGGGU CUGAUGAGGCCGAAAGGCCGAA ACCGUGU 1516 594 UUCUGGG CUGAUGAGGCCGAAAGGCCGAA AACCGUG 1517 605 AUCUUCU CUGAUGAGGCCGAAAGGCCGAA AGGUUCU 1518 619 UUAGCAA CUGAUGAGGCCGAAAGGCCGAA ACACUCA 1519 620 CUUAGCA CUGAUGAGGCCGAAAGGCCGAA AACACUC 1520 621 UCUUAGC CUGAUGAGGCCGAAAGGCCGAA AAACACU 1521 625 UGGUUCU CUGAUGAGGCCGAAAGGCCGAA AGCAAAA 1522 638 AUAGUUG CUGAUGAGGCCGAAAGGCCGAA AUUCUUG 1523 639 GAUAGUU CUGAUGAGGCCGAAAGGCCGAA AAUUCUU 1524 644 UACUCGA CUGAUGAGG6CGAAAGGCCGAA AGUUGAA 1525 646 CAUACUC CUGAUGAGGCCGAAAGGCCGAA AUAGUUG 1526 651 ACCAUCA CUGAUGAGGCCGAAAGGCCGAA ACUCGAU 1527 659 UGCAUAA CUGAUGAGGCCGAAAGGCCGAA ACCAUCA 1528 661 UCUGCAU CUGAUGAGGCCGAAAGGCCGAA AUACCAU 1529 662 UUCUGCA CUGAUGAGGCCGAAAGGCCGAA AAUACCA 1530 672 AUCUUGA CUGAUGAGGCCGAAAGGCCGAA AUUUCUG 1531 674 UUAUCUU CUGAUGAGGCCGAAAGGCCGAA AGAUUUC 1532 680 GUGACAU CUGAUGAGGCCGAAAGGCCGAA AUCUUGA 1533 685 GUUCUGU CUGAUGAGGCCGAAAGGCCGAA ACAUUAU 1534 696 AACGUCG CUGAUGAGGCCGAAAGGCCGAA ACAGUUC 1535 703 UGAUGGA CUGAUGAGGCCGAAAGGCCGAA ACGUCGU 1536 704 CUGAUGG CUGAUGAGGCCGAAAGGCCGAA AACGUCG 1537 705 GCUGAUG CUGAUGAGGCCGAAAGGCCGAA AAACGUC 1538 709 ACAAGCU CUGAUGAGGCCGAAAGGCCGAA AUGGAAA 1539 714 AACAGAC CUGAUGAGGCCGAAAGGCCGAA AGCUGAU 1540 717 UGAAACA CUGAUGAGGCCGAAAGGCCGAA ACAAGCU 1541 721 GGAAUGA CUGAUGAGGCCGAAAGGCCGAA ACAGACA 1542 722 GGGAAUG CUGAUGAGGCCGAAAGGCCGAA AACAGAC 1543 723 AGGGAAU CUGAUGAGGCCGAAAGGCCGAA AAACAGA 1544 726 AUCAGGG CUGAUGAGGCCGAAAGGCCGAA AUGAAAC 1545 727 CAUCAGG CUGAUGAGGCCGAAAGGCCGAA AAUGAAA 1546 736 UGCUCGU CUGAWGAGGCCGAAAGG&CGAA ACAUCAG 1547 737 UUGCUCG CUGAUGAGGCCGAAAGGCCGAA AACAUCA 1548 746 AUGGUCA CUGAUGAGGCCGAAAGGCCGAA AUUGCUC 1549 754 UACAGAA CUGAUGAGGCCGAAAGGCCGAA AUGGUCA 1550 756 AAUACAG CUGAUGAGGCCGAAAGGCCGAA AGAUGGU 1551 757 GAAUACA CUGAUGAGGCCGAAAGGCCGAA AAGAUGG 1552 761 UCCAGAA CUGAUGAGGCCGAAAGGCCGAA ACAGAAG 1553 763 UUUCCAG CUGAUGAGGCCGAAAGGCCGAA AUACAGA 1554 764 GUUUCCA CUGAUGAGGCCGAAAGGCCGAA AAUACAG 1555 787 AAGAUAA CUGAUGAGGCCGAAAGGCCGAA AGCCGCG 1556 788 GAAGAUA CUGAUGAGGCCGAAAGGCCGAA AAGCCGC 1557 789 UGAAGAU CUGAUGAGGCCGAAAGGCCGAA AAAGCCG 1558 790 GUGAAGA CUGAUGAGGCCGAAAGGCCGAA AAAAGCC 1559 792 AGGUGAA CUGAUGAGGCCGAAAGGCCGAA AUAAAAG 1560 794 AAAGGUG CUGAUGAGGCCGAAAGGCCGAA AGAUAAA 1561 795 GAAAGGU CUGAUGAGGCCGAAAGGCCGAA AAGAUAA 1562 800 AUAGAGA CUGAUGAGGCCGAAAGGCCGAA AGGUGAA 1563 801 UAUAGAG CUGAUGAGGCCGAAAGGCCGAA AAGGUGA 1564 802 CUAUAGA CUGAUGAGGCCGAAAGGCCGAA AAAGGUG 1565 804 CUCUAUA CUGAUGAGGCCGAAAGGCCGAA AGAAAGG 1566 806 AGCUCUA CUGAUGAGGCCGAAAGGCCGAA AGAGAAA 1567 808 CAAGCUC CUGAUGAGGCCGAAAGGCCGAA AUAGAGA 1568 814 GGUCCUC CUGAUGAGGCCGAAAGGCCGAA AGCUCUA 1569 824 GGAGGCU CUGAUGAGGCCGAAAGGCCGAA AGGGUCC 1570 830 UCUGGGG CUGAUGAGGCCGAAAGGCCGAA AGGCUGA 1571 844 UCCAAGG CUGAUGAGGCCGAAAGGCCGAA AUGUGGU 1572 845 AUCCAAG CUGAUGAGGCCGAAAGGCCGAA AAUGUGG 1573 848 GUAAUCC CUGAUGAGGCCGAAAGGCCGAA AGGAAUG 1574 853 CAGCUGU CUGAUGAGGCCGAAAGGCCGAA AUCCAAG 1575 854 ACAGCUG CUGAUGAGGCCGAAAGGCCGAA AAUCCAA 1576 862 UUGGAAG CUGAUaAGGCCGAAAGGCCGAA ACAGCUG 1577 865 CUGUUGG CUGAUGAGGCCGAAAGGCCGAA AGUACAG 1578 866 ACUGUUG CUGAUGAGGCCGAAAGGCCGAA AAGUACA 1579 874 AUAUAAU CUGAUGAGGCCGAAAGGCCGAA ACUGUUG 1580 875 CAUAUAA CUGAUGAGGCCGAAAGGCCGAA AACUGUU 1581 877 CACAUAU CUGAUGAGGCCGAAAGGCCGAA AUAACUG 1582 878 ACACAUA CUGAUGAGGCCGAAAGGCCGAA AAUAACU 1583 880 UCACACA CUGAUGAGGCCGAAAGGCCGAA AUAAUAA 1584 892 GACAGAA CUGAUGAGGCCGAAAGGCCGAA ACCAUCA 1585 893 AGACAGA CUGAUGAGGCCGAAAGGCCGAA AACCAUC 1586 894 UAGACAG CUGAUGAGGCCGAAAGGdCGAA AAACCAU 1587 895 UUAGACA CUGAUGAGGCCGAAAGGCCGAA AAAACCA 1588 899 AGAAUUA CUGAUGAGGCCGAAAGGCCGAA ACAGAAA 1589 901 AUAGAAU CUGAUGAGGCCGAAAGGCCGAA AGACAGA 1590 904 UCCAUAG CUGAUGAGGCCGAAAGGCCGAA AUUAGAC 1591 905 UUCCAUA CUGAUGAGGCCGAAAGGCCGAA AAUUAGA 1592 907 AUUUCCA CUGAUGAGGCCGAAAGGCCGAA AGAAUUA 1593 935 GAGUUGC CUGAUGAGGCCGAAAGGCCGAA AGGCCGC 1594 942 UUUAUAA CUGAUGAGGCCGAAAGGCCGAA AGUUGCG 1595 944 CAUUUAU CUGAUGAGGCCGAAAGGCCGAA AGAGUUG 1596 945 ACAUUUA CUGAUGAGGCCGAAAGGCCGAA AAGAGUU 1597 947 CCACAUU CUGAUGAGGCCGAAAGGCCGAA AUAAGAG 1598 1009  GUAUAUG CUGAUGAGGCCGAAAGGCCGAA AUUUUUU 1599 1013  UCAGGUA CUGAUGAGGCCGAAAGGCCGAA AUGGAUU 1600 1015  UUUCAGG CUGAUGAGGCCGAAAGGCCGAA AUAUGGA 1601 1026  UUCAUCA CUGAUGAGGCCGAAAGGCCGAA AUCUUUC 1602 1045  UUUUAAA CUGAUGAGGCCGAAAGGCCGAA ACACGCU 1603 1046  CUUUUAA CUGAUGAGGCCGAAAGGCCGAA AACACGC 1604 1047  ACUUUUA CUGAUGAGGCCGAAAGGCCGAA AAACACG 1605 1048  AACUUUU CUGAUGAGGCCGAAAGGCCGAA AAAACAC 1606 1049  GAACUUU CUGAUGAGGCCGAAAGGCCGAA AAAAACA 1607 1055  GUCUUCG CUGAUGAGGCCGAAAGGCCGAA ACUUUUA 1608 1056  UGUCUUC CUGAUGAGGCCGAAAGGCCGAA AACUUUU 1609 1065  GCAUGAA CUGAUGAGGCCGAAAGGCCGAA AUGUCUU 1610 1067  UCGCAUG CUGAUGAGGCCGAAAGGCCGAA AGAUGUC 1611 1068  GUCGCAU CUGAUGAGGCCGAAAGGCCGAA AAGAUGU 1612 1085  AAACAUG CUGAUGAGGCCGAAAGGCCGAA AUCACUU 1613 1091  AAUUAAA CUGAUGAGGCCGAAAGGCCGAA ACAUGUA 1614 1092  UAAUUAA CUGAUGAGGCCGAAAGGCCGAA AACAUGU 1615 1093  UUAAUUA CUGAUGAGGCCGAAAGGCCGAA AAACAUG 1616 1094  UUUAAUU CUGAUGAGGCCGAAAGGCCGAA AAAACAU 1617 1095  CUUUAAU CUGAUGAGGCCGAAAGGCCGAA AAAAACA 1618 1098  ACUCUUU CUGAUGAGGCCGAAAGGCCGAA AUUAAAA 1619 1099  UACUCUU CUGAUGAGGCCGAAAGGCCGAA AAUUAAA 1620

TABLE VII Mouse B7-2 Hammerhead Ribozyme Target Sequences Seq. ID nt. Position HH Target Sequence No.   47 AcGGACU u GaACAac 1621   47 aCggACU u gaAcAAC 1622   66 CUccUgU a gAcGUgU 1623   66 CUCcUgU A gAcGUGu 1624   74 gAcGUGU u CcagAAc 1625   83 CaGaACU U aCggaAG 1626  134 caAuCcU U aUCUUUG 1627  134 CaauccU U AUCUUUg 1628  134 caAUCcU u AuCUUUg 1629  134 CAaUccU U AUcUuUG 1630  134 CAAucCU U AUcuuUG 1631  135 aAuCcUU a UCUUUGU 1632  135 AauCcUU a UCUuUgu 1633  135 AaUccUU A UcUuUGU 1634  135 aAUccUU a UCUuUgU 1635  137 uCcUUaU C UUUGUGA 1636  137 UccUUAU c UuUGUGA 1637  137 UCCuUAU c uuUGugA 1638  139 cUUaUCU U UGUGAca 1639  140 UUaUCUU U GUGAcaG 1640  140 UUaUcuU U guGACAG 1641  149 UGAcaGU c UUGCUgA 1642  151 AcAGucU U GCUgaUC 1643  151 AcaGuCU U gCUGaUC 1644  158 UgCuGAU c UcAGaUg 1645  158 UgCUGaU C UCaGaUG 1646  158 UGcUgAU c uCAgaUg 1647  158 UgCugAU c UCagAUg 1648  160 CUGaUCU C aGaUGCU 1649  160 cUGaUcU c AgAuGcU 1650  170 AUGcuGU u UcCgUgG 1651  171 UGCUGuU u CcgUGgA 1652  172 gCUgUuU C cgUgGAG 1653  189 GcaaGcU u AUUUCaA 1654  189 gCAAGCU U AUUUCAA 1655  189 GCaaGCU u AuUUCAa 1656  190 CAAGCUU A UUUCAAU 1657  190 CaAgcUU a uUUcaAU 1658  192 AGCUUAU U UCAAUGg 1659  192 aGCUUaU u UCAAUGg 1660  193 GCUUAUU U CAAUGgG 1661  193 GcuUAuU U CaAUGGg 1662  194 CUUAUUU C AAUGgGA 1663  194 cuUAuUU C aAUGGgA 1664  208 acUGCaU a UCUGCcG 1665  210 UGCaUaU C UGCcGUg 1666  223 UGCCcAU U UaCAAAg 1667  223 UGCcCAU u UAcAaAg 1668  224 GCCcAUU U aCAAAgg 1669  225 ccCAUUU a CAaAggc 1670  225 CccaUUU a cAAAgGc 1671  242 AAaACAU a agCcUGa 1672  260 AGCUgGU A GUAUUUU 1673  260 aGCuGgU a gUAUuUU 1674  263 UgGUAGU A UUUUGGC 1675  263 UGgUaGU a UUuUGgC 1676  265 GUAGUAU U UUGGCAG 1677  265 guAGUAU u UuGGCaG 1678  266 UAGUAUU U UGGCAGG 1679  266 uAGUaUU U UGgcAgG 1680  266 UAgUauU u UGGcAgg 1681  267 AGUAUUU U GGCAGGA 1682  267 AGUaUUU U GgcAgGA 1683  286 cAAAAgU U GGUUCUG 1684  286 CAAaagU U GgUUCuG 1685  290 AgUUGGU U CUGuAcG 1686  291 gUUGGUU C UGuAcGA 1687  295 GUUCugU a CgAGcAc 1688  304 GAGcacU A uUUgGGC 1689  307 cacUAUU u GGgCACA 1690  323 AGAAAcU U GAuAGUG 1691  343 gCCAAGU A ccUGGGC 1692  343 gCCAagU a CCUgGGc 1693  361 ACgAGcU U UGAcagG 1694  381 cUGgACU c UacGACU 1695  383 GgACUcU A CGACuUc 1696  383 GGACuCU a cGaCUuC 1697  389 uAcGacU u CaCAaUG 1698  389 UacGACU U CACAAUg 1699  390 acGACUU C ACAAUgU 1700  390 ACgAcUU c acAAUgU 1701  398 ACAaUGU U CAgauCA 1702  398 ACAAUgU U CAGAUCA 1703  398 ACaAuGU U cagAUCA 1704  399 CAaUGUU C AgauCAA 1705  399 CAAUgUU C AGAUCAA 1706  399 CaAuGUU c agAUCAa 1707  399 caAUGUU c aGAuCAA 1708  399 CAaUguU c aGAUcAa 1709  399 cAAuGuU C aGAUcAA 1710  399 CAaugUU c agAUcAA 1711  404 UUCAGAU C AAGGACA 1712  404 UucAGaU c aAGGACa 1713  418 aUGgGCU c GUAugAU 1714  418 AuGGGCU c GUAUgAu 1715  418 AUggGCU c GUaUGaU 1716  421 gGCUCgU a UGAuugU 1717  421 ggCUCgU A UgAuUGU 1718  429 UgAuUGU u UuAUaCA 1719  429 UGAUuGU u UUAUaCA 1720  431 AuUgUuU u AUAcAAa 1721  431 AUuGUuU U AUaCAaA 1722  432 UuGUuUU A UaCAaAA 1723  432 UuGUUUU a UacaaAA 1724  432 uUGUUUU a uAcaAAA 1725  461 gAUcaAU u AUCCucC 1726  462 AucaAUU a uCcUCCA 1727  464 CAauUaU c CUcCaAc 1728  467 uUAUCcU C CAaCAgA 1729  467 UUauCcU C CAaCAGA 1730  467 UUaUccU c cAACAGA 1731  467 UuAuCCU C CaaCAGA 1732  490 GAACUGU C AGUGaUc 1733  497 CAGUGaU c GCcAACU 1734  505 GCcAACU U CAGUgAA 1735  506 CcAACUU C AGUgAAC 1736  506 CCAaCUU C aGUgaaC 1737  521 CUGAAAU A aaACugg 1738  531 ACUGgcU c AgAaUgU 1739  539 agaaUGU A ACAGGaA 1740  550 GgAaAuU c uGGCAuA 1741  550 ggAAaUU C UggcAUA 1742  557 cuggCAU A AAUUUGA 1743  561 CAUAAAU U UGACCUG 1744  562 AUAAAUU U GACCUGC 1745  576 CaCgUCU A agCAaGG 1746  585 gCAaGGU c ACCCgaA 1747  597 gaAACCU A AGAAGAU 1748  607 AaGaUgU a uUuUCUg 1749  611 UGUaUUU u cUgAUAa 1750  625 AcuAAUU C AACUAau 1751  630 UUCAACU A auGAGUA 1752  630 UUcAAcU A AuGAGUA 1753  637 AauGAGU A UGgUGaU 1754  656 uGCAgaU a UcAcAAg 1755  658 CAGAUAU c AcaagAu 1756  658 CAgauAU C ACAAgAu 1757  658 CAGAuAU C aCAAGAU 1758  658 CaGAuaU c ACaAGau 1759  666 aCAAGAU A AUGUCAC 1760  666 ACAagaU a AUGucAC 1761  671 AUaAuGU C ACAGaAc 1762  671 aUAAUgU c ACAGAAc 1763  671 AUAAUGU C ACAGAAC 1764  682 gAACUgU u cAGUAUc 1765  683 aAcUGuU c aGuAUCu 1766  683 AAcUGuU c agUaUcU 1767  691 aguaUcU C CAaCAGC 1768  691 agUAUCU c CAaCagc 1769  691 aGUAucU C CAACAGc 1770  701 aCaGCcU c UcUCUUu 1771  701 acagCCU c UCUCUuU 1772  703 AGCcUcU C UcUUUCA 1773  703 aGCcUcU c UCUUuca 1774  707 UcUCUcU U UCAUUCC 1775  707 UcUCUcU u UcAUUCc 1776  708 cUCUcUU U CAUUCCC 1777  709 UCUcUUU C AUUCCCg 1778  709 UCUCUuU c auuCccG 1779  709 UCUcUuU c AUUCccg 1780  712 CUUUcaU U CcCgGaU 1781  712 cuuUCAU U cCCgGAU 1782  712 CuUucAU u CcCGGaU 1783  712 cUUUCAU U CCCgGAU 1784  712 CUUUcAU u ccCggaU 1785  713 uuUCAUU c CCgGAUg 1786  713 UUUCAUU C CCgGAUG 1787  732 GuGgcAU a UGACcGU 1788  732 GuGgcAU A UGACCgU 1789  740 UGACCgU u gUgUGUg 1790  749 UgUGUgU U CUGGAAA 1791  749 uGuGUGU U cUggAAA 1792  750 gUGUgUU C UGGAAAC 1793  750 GuGUGUU c UggAAAc 1794  773 ugAAGaU U UcCUcCa 1795  778 aUUUcCU c caAACCu 1796  788 AAcCUCU C AAuuuCA 1797  798 UUUCaCU c aAGAGuU 1798  805 CAagAGU U UccAUcu 1799  805 CAAgAGU U uccAUcU 1800  806 AAgAGUU u ccAUcUc 1801  811 UUUCCAU C ucCUcaa 1802  811 uUUCcaU c UcCUcaA 1803  813 uCCAUCU c CUcaAac 1804  836 aGgAGAU U acAGCUU 1805  836 aggaGAU U ACAGCUU 1806  837 GgAGAUU a cAGCUUC 1807  848 CUUCAGU u AcugUGg 1808  860 UGGCCcU C CUcCUug 1809  860 UggCCcU c CUCcuUg 1810  878 ugCUGCU C AUCauUg 1811  951 GCGGgaU a GuAACgC 1812  974 AgaCuAU c aACCUGA 1813  989 aGgAAcU U GaACCCc 1814 1006 auUgCUU c aGCAAAa 1815 1055 AAAgAGU u aaAAaUU 1816 1056 AaGAgUU a aaAAuUG 1817 1062 uAAAAAU u gcUuUgC 1818 1092 CAgaGUU u CuCAGAA 1819 1095 aGUUUcU c AgAaUUC 1820 1101 UCAgAAU u caaAaAU 1821 ll01 ucAGAAU U CAAaaAU 1822 1101 UcAgAaU U CaAAaAu 1823 1111 aAaAUGU U cUcAgcU 1824 1112 AaAUGUU c UcAgcUg 1825 1128 UUgGAaU u cuACAGU 1826 1128 UUGGAaU u CuaCaGU 1827 1131 GAAuUCU a cAGuUgA 1828 1131 GAauUCU a CAguuGA 1829 1141 GuUGAAU a aUuAAag 1830 1144 gaaUAAU U AAAGAac 1831 1145 AAuAaUU a aAgaACA 1832

TABLE IX Mouse B7-2 Hammerhead Ribozyme Sequences nt. Position HH Ribozyme Sequences Seq. ID No.   47 GUUGUUC CUGAUGAGGCCGAAAGGCCGAA AGUCCGU 1833   47 GUUGUUC CUGAUGAGGCCGAAAGGCCGAA AGUCCGU 1834   66 ACACGUC CUGAUGAGGCCGAAAGGCCGAA ACAGGAG 1835   66 ACACGUC CUGAUGAGGCCGAAAGGCCGAA ACAGGAG 1836   74 GUUCUGG CUGAUGAGGCCGAAAGGCCGAA ACACGUC 1837   83 CUUCCGU CUGAUGAGGCCGAAAGGCCGAA AGUUCUG 1838  134 CAAAGAU CUGAUGAGGCCGAAAGGCCGAA AGGAUUG 1839  134 CAAAGAU CUGAUGAGGCCGAAAGGCCGAA AGGAUUG 1840  134 CAAAGAU CUGAUGAGGCCGAAAGGCCGAA AGGAUUG 1841  134 CAAAGAU CUGAUGAGGCCGAAAGGCCGAA AGGAUUG 1842  134 CAAAGAU CUGAUGAGGCCGAAAGGCCGAA AGGAUUG 1843  135 ACAAAGA CUGAUGAGGCCGAAAGGCCGAA AAGGAUU 1844  135 ACAAAGA CUGAUGAGGCCGAAAGGCCGAA AAGGAUU 1845  135 ACAAAGA CUGAUGAGGCCGAAAGGCCGAA AAGGAUU 1846  135 ACAAAGA CUGAUGAGGCCGAAAGGCCGAA AAGGAUU 1847  137 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AUAAGGA 1848  137 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AUAAGGA 1849  137 UCACAAA CUGAUGAGGCCGAAAGGCCGAA AUAAGGA 1850  139 UGUCACA CUGAUGAGGCCGAAAGGCCGAA AGAUAAG 1851  140 CUGUCAC CUGAUGAGGCCGAAAGGCCGAA AAGAUAA 1852  140 CUGUCAC CUGAUGAGGCCGAAAGGCCGAA AAGAUAA 1853  149 UCAGCAA CUGAUGAGGCCGAAAGGCCGAA ACUGUCA 1854  15l GAUCAGC CUGAUGAGGCCGAAAGGCCGAA AGACUGU 1855  151 GAUCAGC CUGAUGAGGCCGAAAGGCCGAA AGACUGU 1856  158 CAUCUGA CUGAUGAGGCCGAAAGGCCGAA AUCAGCA 1857  158 CAUCUGA CUGAUGAGGCCGAAAGGCCGAA AUCAGCA 1858  158 CAUCUGA CUGAUGAGGCCGAAAGGCCGAA AUCAGCA 1859  158 CAUCUGA CUGAUGAGGCCGAAAGGCCGAA AUCAGCA 1860  160 AGCAUCU CUGAUGAGGCCGAAAGGCCGAA AGAUCAG 1861  160 AGCAUCU CUGAUGAGGCCGAAAGGCCGAA AGAUCAG 1862  170 CCACGGA CUGAUGAGGCCGAAAGGCCGAA ACAGCAU 1863  171 UCCACGG CUGAUGAGGCCGAAAGGCCGAA AACAGCA 1864  172 CUCCACG CUGAUGAGGCCGAAAGGCCGAA AAACAGC 1865  189 UUGAAAU CUGAUGAGGCCGAAAGGCCGAA AGCUUGC 1866  189 UUGAAAU CUGAUGAGGCCGAAAGGCCGAA AGCUUGC 1867  189 UUGAAAU CUGAUGAGGCCGAAAGGCCGAA AGCUUGC 1868  190 AUUGAAA CUGAUGAGGCCGAAAGGCCGAA AAGCUUG 1869  190 AUUGAAA CUGAUGAGGCCGAAAGGCCGAA AAGCUUG 1870  192 CCAUUGA CUGAUGAGGCCGAAAGGCCGAA AUAAGCU 1871  192 CCAUUGA CUGAUGAGGCCGAAAGGCCGAA AUAAGCU 1872  193 CCCAUUG CUGAUGAGGCCGAAAGGCCGAA AAUAAGC 1873  193 CCCAUUG CUGAUGAGGCCGAAAGGCCGAA AAUAAGC 1874  194 UCCCAUU CUGAUGAGGCCGAAAGGCCGAA AAAUAAG 1875  194 UCCCAUU CUGAUGAGGCCGAAAGGCCGAA AAAUAAG 1876  208 CGGCAGA CUGAUGAGGCCGAAAGGCCGAA AUGCAGU 1877  210 CACGGCA CUGAUGAGGCCGAAAGGCCGAA AUAUGCA 1878  223 CUUUGUA CUGAUGAGGCCGAAAGGCCGAA AUGGGCA 1879  223 CUUUGUA CUGAUGAGGCCGAAAGGCCGAA AUGGGCA 1880  224 CCUUUGU CUGAUGAGGCCGAAAGGCCGAA AAUGGGC 1881  225 GCCUUUG CUGAUGAGGCCGAAAGGCCGAA AAAUGGG 1882  225 GCCUUUG CUGAUGAGGCCGAAAGGCCGAA AAAUGGG 1883  242 UCAGGCU CUGAUGAGGCCGAAAGGCCGAA AUGUUUU 1884  260 AAAAUAC CUGAUGAGGCCGAAAGGCCGAA ACCAGCU 1885  260 AAAAUAC CUGAUGAGGCCGAAAGGCCGAA ACCAGCU 1886  263 GCCAAAA CUGAUGAGGCCGAAAGGCCGAA ACUACCA 1887  263 GCCAAAA CUGAUGAGGCCGAAAGGCCGAA ACUACCA 1888  265 CUGCCAA CUGAUGAGGCCGAAAGGCCGAA AUACUAC 1889  265 CUGCCAA CUGAUGAGGCCGAAAGGCCGAA AUACUAC 1890  266 CCUGCCA CUGAUGAGGCCGAAAGGCCGAA AAUACUA 1891  266 CCUGCCA CUGAUGAGGCCGAAAGGCCGAA AAUACUA 1892  266 CCUGCCA CUGAUGAGGCCGAAAGGCCGAA AAUACUA 1893  267 UCCUGCC CUGAUGAGGCCGAAAGGCCGAA AAAUACU 1894  267 UCCUGCC CUGAUGAGGCCGAAAGGCCGAA AAAUACU 1895  286 CAGAACC CUGAUGAGGCCGAAAGGCCGAA ACUUUUG 1896  286 CAGAACC CUGAUGAGGCCGAAAGGCCGAA ACUUUUG 1897  290 CGUACAG CUGAUGAGGCCGAAAGGCCGAA ACCAACU 1898  291 UCGUACA CUGAUGAGGCCGAAAGGCCGAA AACCAAC 1899  295 GUGCUCG CUGAUGAGGCCGAAAGGCCGAA ACAGAAC 1900  304 GCCCAAA CUGAUGAGGCCGAAAGGCCGAA AGUGCUC 1901  307 UGUGCCC CUGAUGAGGCCGAAAGGCCGAA AAUAGUG 1902  323 CACUAUC CUGAUGAGGCCGAAAGGCCGAA AGUUUCU 1903  343 GCCCAGG CUGAUGAGGCCGAAAGGCCGAA ACUUGGC 1904  343 GCCCAGG CUGAUGAGGCCGAAAGGCCGAA ACUUGGC 1905  361 CCUGUCA CUGAUGAGGCCGAAAGGCCGAA AGCUCGU 1906  381 AGUCGUA CUGAUGAGGCCGAAAGGCCGAA AGUCCAG 1907  383 GAAGUCG CUGAUGAGGCCGAAAGGCCGAA AGAGUCC 1908  383 GAAGUCG CUGAUGAGGCCGAAAGGCCGAA AGAGUCC 1909  389 CAUUGUG CUGAUGAGGCCGAAAGGCCGAA AGUCGUA 1910  389 CAUUGUG CUGAUGAGGCCGAAAGGCCGAA AGUCGUA 1911  390 ACAUUGU CUGAUGAGGCCGAAAGGCCGAA AAGUCGU 1912  390 ACAUUGU CUGAUGAGGCCGAAAGGCCGAA AAGUCGU 1913  398 UGAUCUG CUGAUGAGGCCGAAAGGCCGAA ACAUUGU 1914  398 UGAUCUG CUGAUGAGGCCGAAAGGCCGAA ACAUUGU 1915  398 UGAUCUG CUGAUGAGGCCGAAAGGCCGAA ACAUUGU 1916  399 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AACAUUG 1917  399 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AACAUUG 1918  399 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AACAUUG 1919  399 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AACAUUG 1920  399 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AACAUUG 1921  399 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AACAUUG 1922  399 UUGAUCU CUGAUGAGGCCGAAAGGCCGAA AACAUUG 1923  404 UGUCCUU CUGAUGAGGCCGAAAGGCCGAA AUCUGAA 1924  404 UGUCCUU CUGAUGAGGCCGAAAGGCCGAA AUCUGAA 1925  418 AUCAUAC CUGAUGAGGCCGAAAGGCCGAA AGCCCAU 1926  418 AUCAUAC CUGAUGAGGCCGAAAGGCCGAA AGCCCAU 1927  418 AUCAUAC CUGAUGAGGCCGAAAGGCCGAA AGCCCAU 1928  421 ACAAUCA CUGAUGAGGCCGAAAGGCCGAA ACGAGCC 1929  421 ACAAUCA CUGAUGAGGCCGAAAGGCCGAA ACGAGCC 1930  429 UGUAUAA CUGAUGAGGCCGAAAGGCCGAA ACAAUCA 1931  429 UGUAUAA CUGAUGAGGCCGAAAGGCCGAA ACAAUCA 1932  431 UUUGUAU CUGAUGAGGCCGAAAGGCCGAA AAACAAU 1933  431 UUUGUAU CUGAUGAGGCCGAAAGGCCGAA AAACAAU 1934  432 UUUUGUA CUGAUGAGGCCGAAAGGCCGAA AAAACAA 1935  432 UUUUGUA CUGAUGAGGCCGAAAGGCCGAA AAAACAA 1936  432 UUUUGUA CUGAUGAGGCCGAAAGGCCGAA AAAACAA 1937  461 GGAGGAU CUGAUGAGGCCGAAAGGCCGAA AUUGAUC 1938  462 UGGAGGA CUGAUGAGGCCGAAAGGCCGAA AAUUGAU 1939  464 GUUGGAG CUGAUGAGGCCGAAAGGCCGAA AUAAUUG 1940  467 UCUGUUG CUGAUGAGGCCGAAAGGCCGAA AGGAUAA 1941  467 UCUGUUG CUGAUGAGGCCGAAAGGCCGAA AGGAUAA 1942  467 UCUGUUG CUGAUGAGGCCGAAAGGCCGAA AGGAUAA 1943  467 UCUGUUG CUGAUGAGGCCGAAAGGCCGAA AGGAUAA 1944  490 GAUCACU CUGAUGAGGCCGAAAGGCCGAA ACAGUUC 1945  497 AGUUGGC CUGAUGAGGCCGAAAGGCCGAA AUCACUG 1946  505 UUCACUG CUGAUGAGGCCGAAAGGCCGAA AGUUGGC l947  506 GUUCACU CUGAUGAGGCCGAAAGGCCGAA AAGUUGG 1948  506 GUUCACU CUGAUGAGGCCGAAAGGCCGAA AAGUUGG 1949  521 CCAGUUU CUGAUGAGGCCGAAAGGCCGAA AUUUCAG 1950  531 ACAUUCU CUGAUGAGGCCGAAAGGCCGAA AGCCAGU 1951  539 UUCCUGU CUGAUGAGGCCGAAAGGCCGAA ACAUUCU 1952  550 UAUGCCA CUGAUGAGGCCGAAAGGCCGAA AAUUUCC 1953  550 UAUGCCA CUGAUGAGGCCGAAAGGCCGAA AAUUUCC 1954  557 UCAAAUU CUGAUGAGGCCGAAAGGCCGAA AUGCCAG 1955  561 CAGGUCA CUGAUGAGGCCGAAAGGCCGAA AUUUAUG 1956  562 GCAGGUC CUGAUGAGGCCGAAAGGCCGAA AAUUUAU 1957  576 CCUUGCU CUGAUGAGGCCGAAAGGCCGAA AGACGUG 1958  585 UUCGGGU CUGAUGAGGCCGAAAGGCCGAA ACCUUGC 1959  597 AUCUUCU CUGAUGAGGCCGAAAGGCCGAA AGGUUUC 1960  607 CAGAAAA CUGAUGAGGCCGAAAGGCCGAA ACAUCUU 1961  611 UUAUCAG CUGAUGAGGCCGAAAGGCCGAA AAAUACA 1962  625 AUUAGUU CUGAUGAGGCCGAAAGGCCGAA AAUUAGU 1963  630 UACUCAU CUGAUGAGGCCGAAAGGCCGAA AGUUGAA 1964  630 UACUCAU CUGAUGAGGCCGAAAGGCCGAA AGUUGAA 1965  637 AUCACCA CUGAUGAGGCCGAAAGGCCGAA ACUCAUU 1966  656 CUUGUGA CUGAUGAGGCCGAAAGGCCGAA AUCUGCA 1967  658 AUCUUGU CUGAUGAGGCCGAAAGGCCGAA AUAUCUG 1968  658 AUCUUGU CUGAUGAGGCCGAAAGGCCGAA AUAUCUG 1969  658 AUCUUGU CUGAUGAGGCCGAAAGGCCGAA AUAUCUG 1970  658 AUCUUGU CUGAUGAGGCCGAAAGGCCGAA AUAUCUG 1971  666 GUGACAU CUGAUGAGGCCGAAAGGCCGAA AUCUUGU 1972  666 GUGACAU CUGAUGAGGCCGAAAGGCCGAA AUCUUGU 1973  671 GUUCUGU CUGAUGAGGCCGAAAGGCCGAA ACAUUAU 1974  671 GUUCUGU CUGAUGAGGCCGAAAGGCCGAA ACAUUAU 1975  671 GUUCUGU CUGAUGAGGCCGAAAGGCCGAA ACAUUAU 1976  682 GAUACUG CUGAUGAGGCCGAAAGGCCGAA ACAGUUC 1977  683 AGAUACU CUGAUGAGGCCGAAAGGCCGAA AACAGUU 1978  683 AGAUACU CUGAUGAGGCCGAAAGGCCGAA AACAGUU 1979  691 GCUGUUG CUGAUGAGGCCGAAAGGCCGAA AGAUACU 1980  691 GCUGUUG CUGAUGAGGCCGAAAGGCCGAA AGAUACU 1981  691 GCUGUUG CUGAUGAGGCCGAAAGGCCGAA AGAUACU 1982  701 AAAGAGA CUGAUGAGGCCGAAAGGCCGAA AGGCUGU 1983  701 AAAGAGA CUGAUGAGGCCGAAAGGCCGAA AGGCUGU 1984  703 UGAAAGA CUGAUGAGGCCGAAAGGCCGAA AGAGGCU 1985  703 UGAAAGA CUGAUGAGGCCGAAAGGCCGAA AGAGGCU 1986  707 GGAAUGA CUGAUGAGGCCGAAAGGCCGAA AGAGAGA 1987  707 GGAAUGA CUGAUGAGGCCGAAAGGCCGAA AGAGAGA 1988  708 GGGAAUG CUGAUGAGGCCGAAAGGCCGAA AAGAGAG 1989  709 CGGGAAU CUGAUGAGGCCGAAAGGCCGAA AAAGAGA 1990  709 CGGGAAU CUGAUGAGGCCGAAAGGCCGAA AAAGAGA 1991  709 CGGGAAU CUGAUGAGGCCGAAAGGCCGAA AAAGAGA 1992  712 AUCCGGG CUGAUGAGGCCGAAAGGCCGAA AUGAAAG 1993  712 AUCCGGG CUGAUGAGGCCGAAAGGCCGAA AUGAAAG 1994  712 AUCCGGG CUGAUGAGGCCGAAAGGCCGAA AUGAAAG 1995  712 AUCCGGG CUGAUGAGGCCGAAAGGCCGAA AUGAAAG 1996  712 AUCCGGG CUGAUGAGGCCGAAAGGCCGAA AUGAAAG 1997  713 CAUCCGG CUGAUGAGGCCGAAAGGCCGAA AAUGAAA 1998  713 CAUCCGG CUGAUGAGGCCGAAAGGCCGAA AAUGAAA 1999  732 ACGGUCA CUGAUGAGGCCGAAAGGCCGAA AUGCCAC 2000  732 ACGGUCA CUGAUGAGGCCGAAAGGCCGAA AUGCCAC 2001  740 CACACAC CUGAUGAGGCCGAAAGGCCGAA ACGGUCA 2002  749 UUUCCAG CUGAUGAGGCCGAAAGGCCGAA ACACACA 2003  749 UUUCCAG CUGAUGAGGCCGAAAGGCCGAA ACACACA 2004  750 GUUUCCA CUGAUGAGGCCGAAAGGCCGAA AACACAC 2005  750 GUUUCCA CUGAUGAGGCCGAAAGGCCGAA AACACAC 2006  773 UGGAGGA CUGAUGAGGCCGAAAGGCCGAA AUCUUCA 2007  778 AGGUUUC CUGAUGAGGCCGAAAGGCCGAA AGGAAAU 2008  788 UGAAAUU CUGAUGAGGCCGAAAGGCCGAA AGAGGUU 2009  798 AACUCUU CUGAUGAGGCCGAAAGGCCGAA AGUGAAA 2010  805 AGAUGGA CUGAUGAGGCCGAAAGGCCGAA ACUCUUG 2011  805 AGAUGGA CUGAUGAGGCCGAAAGGCCGAA ACUCUUG 2012  806 GAGAUGG CUGAUGAGGCCGAAAGGCCGAA AACUCUU 2013  811 UUGAGGA CUGAUGAGGCCGAAAGGCCGAA AUGGAAA 2014  811 UUGAGGA CUGAUGAGGCCGAAAGGCCGAA AUGGAAA 2015  813 GUUUGAG CUGAUGAGGCCGAAAGGCCGAA AGAUGGA 2016  836 AAGCUGU CUGAUGAGGCCGAAAGGCCGAA AUCUCCU 2017  836 AAGCUGU CUGAUGAGGCCGAAAGGCCGAA AUCUCCU 2018  837 GAAGCUG CUGAUGAGGCCGAAAGGCCGAA AAUCUCC 2019  848 CCACAGU CUGAUGAGGCCGAAAGGCCGAA ACUGAAG 2020  860 CAAGGAG CUGAUGAGGCCGAAAGGCCGAA AGGGCCA 2021  860 CAAGGAG CUGAUGAGGCCGAAAGGCCGAA AGGGCCA 2022  878 CAAUGAU CUGAUGAGGCCGAAAGGCCGAA AGCAGCA 2023  951 GCGUUAC CUGAUGAGGCCGAAAGGCCGAA AUCCCGC 2024  974 UCAGGUU CUGAUGAGGCCGAAAGGCCGAA AUAGUCU 2025  989 GGGGUUC CUGAUGAGGCCGAAAGGCCGAA AGUUCCU 2026 1006 UUUUGCU CUGAUGAGGCCGAAAGGCCGAA AAGCAAU 2027 1055 AAUUUUU CUGAUGAGGCCGAAAGGCCGAA ACUCUUU 2028 1056 CAAUUUU CUGAUGAGGCCGAAAGGCCGAA AACUCUU 2029 1062 GCAAAGC CUGAUGAGGCCGAAAGGCCGAA AUUUUUA 2030 1092 UUCUGAG CUGAUGAGGCCGAAAGGCCGAA AACUCUG 2031 1095 GAAUUCU CUGAUGAGGCCGAAAGGCCGAA AGAAACU 2032 1101 AUUUUUG CUGAUGAGGCCGAAAGGCCGAA AUUCUGA 2033 1101 AUUUUUG CUGAUGAGGCCGAAAGGCCGAA AUUCUGA 2034 1101 AUUUUUG CUGAUGAGGCCGAAAGGCCGAA AUUCUGA 2035 1111 AGCUGAG CUGAUGAGGCCGAAAGGCCGAA ACAUUUU 2036 1112 CAGCUGA CUGAUGAGGCCGAAAGGCCGAA AACAUUU 2037 1128 ACUGUAG CUGAUGAGGCCGAAAGGCCGAA AUUCCAA 2038 1128 ACUGUAG CUGAUGAGGCCGAAAGGCCGAA AUUCCAA 2039 1131 UCAACUG CUGAUGAGGCCGAAAGGCCGAA AGAAUUC 2040 1131 UCAACUG CUGAUGAGGCCGAAAGGCCGAA AGAAUUC 2041 1141 CUUUAAU CUGAUGAGGCCGAAAGGCCGAA AUUCAAC 2042 1144 GUUCUUU CUGAUGAGGCCGAAAGGCCGAA AUUAUUC 2043 1145 UGUUCUU CUGAUGAGGCCGAAAGGCCGAA AAUUAUU 2044

TABLE X Human CD40 Hammerhead Ribozyme Target Sequences nt. Seq. ID Position HH Target Sequence No.   9 CCUCGCU C GGGCGCC 2045  24 CAGUGGU C CUGCCGC 2046  37 GCCUGGU C UCACCUC 2047  39 CUGGUCU C ACCUCGC 2048  44 CUCACCU C GCCAUGG 2049  53 CCAUGGU U CGUCUGC 2050  54 CAUGGUU C GUCUGCC 2051  57 GGUUCGU C UGCCUCU 2052  63 UCUGCCU C UGCAGUG 2053  74 AGUGCGU C CUCUGGG 2054  77 GCGUCCU C UGGGGCU 2055  88 GGCUGCU U GCUGACC 2056 101 CCGCUGU C CAUCCAG 2057 105 UGUCCAU C CAGAACC 2058 139 AAACAGU A CCUAAUA 2059 143 AGUACCU A AUAAACA 2060 146 ACCUAAU A AACAGUC 2061 153 AAACAGU C AGUGCUG 2062 162 GUGCUGU U CUUUGUG 2063 163 UGCUGUU C UUUGUGC 2064 165 CUGUUCU U UGUGCCA 2065 166 UGUUCUU U GUGCCAG 2066 208 ACAGAGU U CACUGAA 2067 209 CAGAGUU C ACUGAAA 2068 227 AAUGCCU U CCUUGCG 2069 228 AUGCCUU C CUUGCGG 2070 231 CCUUCCU U GCGGUGA 2071 247 AGCGAAU U CCUAGAC 2072 248 GCGAAUU C CUAGACA 2073 251 AAUUCCU A GACACCU 2074 292 CACAAAU A CUGCGAC 2075 308 CCAACCU A GGGCUUC 2076 314 UAGGGCU U CGGGUCC 2077 315 AGGGCUU C GGGUCCA 2078 320 UUCGGGU C CAGCAGA 2079 337 GGCACCU C AGAAACA 2080 353 ACACCAU C UGCACCU 2081 381 GCACUGU A CGAGUGA 2082 407 GCUGUGU C CUGCACC 2083 418 CACCGCU C AUGCUCG 2084 424 UCAUGCU C GCCCGGC 2085 433 CCCGGCU U UGGGGUC 2086 434 CCGGCUU U GGGGUCA 2087 440 UUGGGGU C AAGCAGA 2088 449 AGCAGAU U GCUACAG 2089 453 GAUUGCU A CAGGGGU 2090 461 CAGGGGU U UCUGAUA 2091 462 AGGGGUU U CUGAUAC 2092 463 GGGGUUU C UGAUACC 2093 468 UUCUGAU A CCAUCUG 2094 473 AUACCAU C UGCGAGC 2095 491 GCCCAGU C GGCUUCU 2096 496 GUCGGCU U CUUCUCC 2097 497 UCGGCUU C UUCUCCA 2098 499 GGCUUCU U CUCCAAU 2099 500 GCUUCUU C UCCAAUG 2100 502 UUCUUCU C CAAUGUG 2101 511 AAUGUGU C AUCUGCU 2102 514 GUGUCAU C UGCUUUC 2103 519 AUCUGCU U UCGAAAA 2104 520 UCUGCUU U CGAAAAA 2105 521 CUGCUUU C GAAAAAU 2106 531 AAAAUGU C ACCCUUG 2107 537 UCACCCU U GGACAAG 2108 566 ACCUGGU U GUGCAAC 2109 599 CUGAUGU U GUCUGUG 2110 602 AUGUUGU C UGUGGUC 2111 609 CUGUGGU C CCCAGGA 2112 618 CCAGGAU C GGCUGAG 2113 641 UGGUGAU C CCCAUCA 2114 647 UCCCCAU C AUCUUCG 2115 650 CCAUCAU C UUCGGGA 2116 652 AUCAUCU U CGGGAUC 2117 653 UCAUCUU C GGGAUCC 2118 659 UCGGGAU C CUGUUUG 2119 664 AUCCUGU U UGCCAUC 2120 665 UCCUGUU U GCCAUCC 2121 671 UUGCCAU C CUCUUGG 2122 674 CCAUCCU C UUGGUGC 2123 676 AUCCUCU U GGUGCUG 2124 686 UGCUGGU C UUUAUCA 2125 688 CUGGUCU U UAUCAAA 2126 689 UGGUCUU U AUCAAAA 2127 690 GGUCUUU A UCAAAAA 2128 692 UCUUUAU C AAAAAGG 2129 720 AACCAAU A AGGCCCC 2130 755 AGGAGAU C AAUUUUC 2131 759 GAUCAAU U UUCCCGA 2132 760 AUCAAUU U UCCCGAC 2133 761 UCAAUUU U CCCGACG 2134 762 CAAUUUU C CCGACGA 2135 771 CGACGAU C UUCCUGG 2136 773 ACGAUCU U CCUGGCU 2137 774 CGAUCUU C CUGGCUC 2138 781 CCUGGCU C CAACACU 2139 795 UGCUGCU C CAGUGCA 2140 810 GGAGACU U UACAUGG 2141 811 GAGACUU U ACAUGGA 2142 812 AGACUUU A CAUGGAU 2143 830 AACCGGU C ACCCAGG 2144 855 AGAGAGU C GCAUCUC 2145 860 GUCGCAU C UCAGUGC 2146 862 CGCAUCU C AGUGCAG 2147 927 AGGCAGU U GGCCAGA 2148 981 GGGAGCU A UGCCCAG 2149 990 GCCCAGU C AGUGCCA 2150

TABLE XI Human CD40 Hammerhead Ribozyme Sequences nt. Position HH Ribozyme Sequences Seq. ID No.   9 GGCGCCC CUGAUGAGGCCGAAAGGCCGAA AGCGAGG 2151  24 GCGGCAG CUGAUGAGGCCGAAAGGCCGAA ACCACUG 2152  37 GAGGUGA CUGAUGAGGCCGAAAGGCCGAA ACCAGGC 2153  39 GCGAGGU CUGAUGAGGCCGAAAGGCCGAA AGACCAG 2154  44 CCAUGGC CUGAUGAGGCCGAAAGGCCGAA AGGUGAG 2155  53 GCAGACG CUGAUGAGGCCGAAAGGCCGAA ACCAUGG 2156  54 GGCAGAC CUGAUGAGGCCGAAAGGCCGAA AACCAUG 2157  57 AGAGGCA CUGAUGAGGCCGAAAGGCCGAA ACGAACC 2158  63 CACUGCA CUGAUGAGGCCGAAAGGCCGAA AGGCAGA 2159  74 CCCAGAG CUGAUGAGGCCGAAAGGCCGAA ACGCACU 2160  77 AGCCCCA CUGAUGAGGCCGAAAGGCCGAA AGGACGC 2161  88 GGUCAGC CUGAUGAGGCCGAAAGGCCGAA AGCAGCC 2162 101 CUGGAUG CUGAUGAGGCCGAAAGGCCGAA ACAGCGG 2163 105 GGUUCUG CUGAUGAGGCCGAAAGGCCGAA AUGGACA 2164 139 UAUUAGG CUGAUGAGGCCGAAAGGCCGAA ACUGUUU 2165 143 UGUUUAU CUGAUGAGGCCGAAAGGCCGAA AGGUACU 2166 146 GACUGUU CUGAUGAGGCCGAAAGGCCGAA AUUAGGU 2167 153 CAGCACU CUGAUGAGGCCGAAAGGCCGAA ACUGUUU 2168 162 CACAAAG CUGAUGAGGCCGAAAGGCCGAA ACAGCAC 2169 163 GCACAAA CUGAUGAGGCCGAAAGGCCGAA AACAGCA 2170 165 UGGCACA CUGAUGAGGCCGAAAGGCCGAA AGAACAG 2171 166 CUGGCAC CUGAUGAGGCCGAAAGGCCGAA AAGAACA 2172 208 UUCAGUG CUGAUGAGGCCGAAAGGCCGAA ACUCUGU 2173 209 UUUCAGU CUGAUGAGGCCGAAAGGCCGAA AACUCUG 2174 227 CGCAAGG CUGAUGAGGCCGAAAGGCCGAA AGGCAUU 2175 228 CCGCAAG CUGAUGAGGCCGAAAGGCCGAA AAGGCAU 2176 231 UCACCGC CUGAUGAGGCCGAAAGGCCGAA AGGAAGG 2177 247 GUCUAGG CUGAUGAGGCCGAAAGGCCGAA AUUCGCU 2178 248 UGUCUAG CUGAUGAGGCCGAAAGGCCGAA AAUUCGC 2179 251 AGGUGUC CUGAUGAGGCCGAAAGGCCGAA AGGAAUU 2180 292 GUCGCAG CUGAUGAGGCCGAAAGGCCGAA AUUUGUG 2181 308 GAAGCCC CUGAUGAGGCCGAAAGGCCGAA AGGUUGG 2182 314 GGACCCG CUGAUGAGGCCGAAAGGCCGAA AGCCCUA 2183 315 UGGACCC CUGAUGAGGCCGAAAGGCCGAA AAGCCCU 2184 320 UCUGCUG CUGAUGAGGCCGAAAGGCCGAA ACCCGAA 2185 337 UGUUUCU CUGAUGAGGCCGAAAGGCCGAA AGGUGCC 2186 353 AGGUGCA CUGAUGAGGCCGAAAGGCCGAA AUGGUGU 2187 381 UCACUCG CUGAUGAGGCCGAAAGGCCGAA ACAGUGC 2188 407 GGUGCAG CUGAUGAGGCCGAAAGGCCGAA ACACAGC 2189 418 CGAGCAU CUGAUGAGGCCGAAAGGCCGAA AGCGGUG 2190 424 GCCGGGC CUGAUGAGGCCGAAAGGCCGAA AGCAUGA 2191 433 GACCCCA CUGAUGAGGCCGAAAGGCCGAA AGCCGGG 2192 434 UGACCCC CUGAUGAGGCCGAAAGGCCGAA AAGCCGG 2193 440 UCUGCUU CUGAUGAGGCCGAAAGGCCGAA ACCCCAA 2194 449 CUGUAGC CUGAUGAGGCCGAAAGGCCGAA AUCUGCU 2195 453 ACCCCUG CUGAUGAGGCCGAAAGGCCGAA AGCAAUC 2196 461 UAUCAGA CUGAUGAGGCCGAAAGGCCGAA ACCCCUG 2197 462 GUAUCAG CUGAUGAGGCCGAAAGGCCGAA AACCCCU 2198 463 GGUAUCA CUGAUGAGGCCGAAAGGCCGAA AAACCCC 2199 468 CAGAUGG CUGAUGAGGCCGAAAGGCCGAA AUCAGAA 2200 473 GCUCGCA CUGAUGAGGCCGAAAGGCCGAA AUGGUAU 2201 491 AGAAGCC CUGAUGAGGCCGAAAGGCCGAA ACUGGGC 2202 496 GGAGAAG CUGAUGAGGCCGAAAGGCCGAA AGCCGAC 2203 497 UGGAGAA CUGAUGAGGCCGAAAGGCCGAA AAGCCGA 2204 499 AUUGGAG CUGAUGAGGCCGAAAGGCCGAA AGAAGCC 2205 500 CAUUGGA CUGAUGAGGCCGAAAGGCCGAA AAGAAGC 2206 502 CACAUUG CUGAUGAGGCCGAAAGGCCGAA AGAAGAA 2207 511 AGCAGAU CUGAUGAGGCCGAAAGGCCGAA ACACAUU 2208 514 GAAAGCA CUGAUGAGGCCGAAAGGCCGAA AUGACAC 2209 519 UUUUCGA CUGAUGAGGCCGAAAGGCCGAA AGCAGAU 2210 520 UUUUUCG CUGAUGAGGCCGAAAGGCCGAA AAGCAGA 2211 521 AUUUUUC CUGAUGAGGCCGAAAGGCCGAA AAAGCAG 2212 531 CAAGGGU CUGAUGAGGCCGAAAGGCCGAA ACAUUUU 2213 537 CUUGUCC CUGAUGAGGCCGAAAGGCCGAA AGGGUGA 2214 566 GUUGCAC CUGAUGAGGCCGAAAGGCCGAA ACCAGGU 2215 599 CACAGAC CUGAUGAGGCCGAAAGGCCGAA ACAUCAG 2216 602 GACCACA CUGAUGAGGCCGAAAGGCCGAA ACAACAU 2217 609 UCCUGGG CUGAUGAGGCCGAAAGGCCGAA ACCACAG 2218 618 CUCAGCC CUGAUGAGGCCGAAAGGCCGAA AUCCUGG 2219 641 UGAUGGG CUGAUGAGGCCGAAAGGCCGAA AUCACCA 2220 647 CGAAGAU CUGAUGAGGCCGAAAGGCCGAA AUGGGGA 2221 650 UCCCGAA CUGAUGAGGCCGAAAGGCCGAA AUGAUGG 2222 652 GAUCCCG CUGAUGAGGCCGAAAGGCCGAA AGAUGAU 2223 653 GGAUCCC CUGAUGAGGCCGAAAGGCCGAA AAGAUGA 2224 659 CAAACAG CUGAUGAGGCCGAAAGGCCGAA AUCCCGA 2225 664 GAUGGCA CUGAUGAGGCCGAAAGGCCGAA ACAGGAU 2226 665 GGAUGGC CUGAUGAGGCCGAAAGGCCGAA AACAGGA 2227 671 CCAAGAG CUGAUGAGGCCGAAAGGCCGAA AUGGCAA 2228 674 GCACCAA CUGAUGAGGCCGAAAGGCCGAA AGGAUGG 2229 676 CAGCACC CUGAUGAGGCCGAAAGGCCGAA AGAGGAU 2230 686 UGAUAAA CUGAUGAGGCCGAAAGGCCGAA ACCAGCA 2231 688 UUUGAUA CUGAUGAGGCCGAAAGGCCGAA AGACCAG 2232 689 UUUUGAU CUGAUGAGGCCGAAAGGCCGAA AAGACCA 2233 690 UUUUUGA CUGAUGAGGCCGAAAGGCCGAA AAAGACC 2234 692 CCUUUUU CUGAUGAGGCCGAAAGGCCGAA AUAAAGA 2235 720 GGGGCCU CUGAUGAGGCCGAAAGGCCGAA AUUGGUU 2236 755 GAAAAUU CUGAUGAGGCCGAAAGGCCGAA AUCUCCU 2237 759 UCGGGAA CUGAUGAGGCCGAAAGGCCGAA AUUGAUC 2238 760 GUCGGGA CUGAUGAGGCCGAAAGGCCGAA AAUUGAU 2239 761 CGUCGGG CUGAUGAGGCCGAAAGGCCGAA AAAUUGA 2240 762 UCGUCGG CUGAUGAGGCCGAAAGGCCGAA AAAAUUG 2241 771 CCAGGAA CUGAUGAGGCCGAAAGGCCGAA AUCGUCG 2242 773 AGCCAGG CUGAUGAGGCCGAAAGGCCGAA AGAUCGU 2243 774 GAGCCAG CUGAUGAGGCCGAAAGGCCGAA AAGAUCG 2244 781 AGUGUUG CUGAUGAGGCCGAAAGGCCGAA AGCCAGG 2245 795 UGCACUG CUGAUGAGGCCGAAAGGCCGAA AGCAGCA 2246 810 CCAUGUA CUGAUGAGGCCGAAAGGCCGAA AGUCUCC 2247 811 UCCAUGU CUGAUGAGGCCGAAAGGCCGAA AAGUCUC 2248 812 AUCCAUG CUGAUGAGGCCGAAAGGCCGAA AAAGUCU 2249 830 CCUGGGU CUGAUGAGGCCGAAAGGCCGAA ACCGGUU 2250 855 GAGAUGC CUGAUGAGGCCGAAAGGCCGAA ACUCUCU 2251 860 GCACUGA CUGAUGAGGCCGAAAGGCCGAA AUGCGAC 2252 862 CUGCACU CUGAUGAGGCCGAAAGGCCGAA AGAUGCG 2253 927 UCUGGCC CUGAUGAGGCCGAAAGGCCGAA ACUGCCU 2254 981 CUGGGCA CUGAUGAGGCCGAAAGGCCGAA AGCUCCC 2255 990 UGGCACU CUGAUGAGGCCGAAAGGCCGAA ACUGGGC 2256

TABLE XII Mouse CD40 Hammerhead Ribozyme Target Sequences nt. Seq. ID Position HH Target Sequence No.   18 GGUgucU u UGCCUCg 2257   18 GGuguCU u UGCCucG 2258   24 UuUGCCU C gGCuGUG 2259   38 GCGcgCU a UGGGGCU 2260   62 CagcGGU c CaUCUag 2261   62 CaGCgGU C CAUCuAG 2262   66 gGUCCAU C uAGggCa 2263   80 AGUGuGU u acgUGca 2264   80 AgUGUGU u AcgUGCa 2265   81 gUGugUU a CgUGCaG 2266  100 AAACAGU A CCUccac 2267  126 CUGUgaU U UGUGCCA 2268  127 UGUgaUU U GUGCCAG 2269  170 CAgcUcU u gaGAaGA 2270  208 gGCGAAU U CucAGcC 2271  209 GCGAAUU C ucAGcCc 2272  233 gGGAGAU u cgcUgUC 2273  267 ACCcAAU c AAggGcu 2274  267 AcCCAAU c AaGggCu 2275  275 aAGGGCU U CGGGUua 2276  275 AaGGGcU U CgGgUua 2277  276 AGGGCUU C GGGUuaA 2278  281 UUCGGGU u aAGaAGg 2279  281 UUcGGGU u AAGaAGg 2280  314 ACACugU C UGuACCU 2281  354 caAgGaU u GCgaGGC 2282  386 cCugUaU c CCUGGCU 2283  394 CCUgGCU u uGGaGuu 2284  394 CCuGGCU U UGGaGUu 2285  395 CuGGCUU U GGaGUuA 2286  429 caCUGAU A CCgUCUG 2287  434 AUACCgU C UGucAuC 2288  434 AUaCcGU c UGuCAUC 2289  441 CugUCaU C CcuGCcC 2290  452 GCCCAGU C GGCUUCU 2291  452 GCCCAGU C gGcuuCu 2292  457 GUCGGCU U CUUCUCC 2293  458 UCGGCUU C UUCUCCA 2294  460 GGCUUCU U CUCCAAU 2295  461 GCUUCUU C UCCAAUc 2296  463 UUCUUCU C CAAUcaG 2297  472 AAuCAGU C AucaCUu 2298  472 AAUcagU c auCACuU 2299  479 cAUCAcU U UUCgaaA 2300  480 AUCacuU U UCGAAAA 2301  481 UCacuUU U CGAAAAg 2302  481 UCACuuU U cGAaAAG 2303  492 AAAgUGU u AuCCcUG 2304  560 CUaAUGU c aUCUGUG 2305  563 AUGUcaU C UGUGGUu 2306  572 gUGGUuU a AagUCcC 2307  572 GuGGUUU a aagUcCC 2308  577 UuAAagU c CCgGAuG 2309  620 UGGgcAU C CuCAUCA 2310  626 UCCuCAU C AcCaUuu 2311  632 uCAcCAU u UUCGGGg 2312  632 UcaCCAU u uUCggGG 2313  634 AcCAUuU U CGGGgUg 2314  635 CCaUuuU c GgGGUGu 2315  635 cCAUuUU C GGGgUgu 2316  635 CCAUuuU C ggGGUGu 2317  647 UGuUucU C UaUAUCA 2318  649 uUucUCU a UAUCAAA 2319  651 ucUCUaU A UCAAAAA 2320  653 UCUaUAU C AAAAAGG 2321  735 gGAaGAU u aUCCcGG 2322  759 cGCUGCU C CAGUGCA 2323  794 AgCCuGU C ACaCAGG 2324  794 AGcCuGU c acaCAGg 2325  819 AGAGAGU C GCAUCUC 2326  824 GUCGCAU C UCAGUGC 2327  826 CGCAUCU C AGUGCAG 2328  876 cCCUGGU C UgAaCcC 2329  913 GGCUGCU U GCUGACC 2330  997 CUCAaCU u GCuuUuu 2331 1003 uUGCUUU u uAAggAU 2332 1003 uugCUUU u uAaGGAU 2333 1023 gaAAgCU c GGGCaUC 2334 1048 CAGuGaU a UCUaccA 2335 1052 gAUauCU a CCaaGuG 2336 1081 CCAGagU u GuCUugc 2337 1084 gAGUuGU C uUGCuGC 2338 1086 gUugUCU U GcUGCgG 2339 1097 gCgGcGU U CACUGuA 2340 1098 CgGcGUU C ACUGuAA 2341 1118 cgUgGCU A CAGGaGU 2342 118 CgUGGCU a CaggAgU 2343 1141 CgCaGCU u gUGCUCG 2344 1164 aCCUGgU U GCCAUCa 2345 1202 UGuaaUU a UUUaUaC 2346 1220 gGcAuCU c AgAAACu 2347 1220 GGCAuCU C AGAAACu 2348 1228 aGAaACU c UAgcaGG 2349 1253 AaCaGGU a GUGgAAu 2350 1331 AGgAGcU U GCUgCcc 2351 1362 uUuUGaU C CCugGGA 2352 1373 gGGaCUU c AUgguAA 2353 1373 GgGACUU c AugguaA 2354 1413 uUGUCAU u UGaccUC 2355 1443 GUaaUGU a CcccGUG 2356 1470 CACAuAU c CUaaaAu 2357 1492 GugGUGU a uUGuAga 2358 1497 GuAuUGU A gaAaUuA 2359 1508 auUauUU a aUCcGCC 2360 1508 AUuAuUU a auCCGcC 2361 1523 cuGGGuU u CUaccUG 2362

TABLE XIII Mouse CD40 Hammerhead Ribozyme Sequences nt. Position HH Ribozyme Sequence Seq. ID No.   18 CGAGGCA CUGAUGAGGCCGAAAGGCCGAA AGACACC 2363   18 CGAGGCA CUGAUGAGGCCGAAAGGCCGAA AGACACC 2364   24 CACAGCC CUGAUGAGGCCGAAAGGCCGAA AGGCAAA 2365   38 AGCCCCA CUGAUGAGGCCGAAAGGCCGAA AGCGCGC 2366   62 CUAGAUG CUGAUGAGGCCGAAAGGCCGAA ACCGCUG 2367   62 CUAGAUG CUGAUGAGGCCGAAAGGCCGAA ACCGCUG 2368   66 UGCCCUA CUGAUGAGGCCGAAAGGCCGAA AUGGACC 2369   80 UGCACGU CUGAUGAGGCCGAAAGGCCGAA ACACACU 2370   80 UGCACGU CUGAUGAGGCCGAAAGGCCGAA ACACACU 2371   81 CUGCACG CUGAUGAGGCCGAAAGGCCGAA AACACAC 2372  100 GUGGAGG CUGAUGAGGCCGAAAGGCCGAA ACUGUUU 2373  126 UGGCACA CUGAUGAGGCCGAAAGGCCGAA AUCACAG 2374  127 CUGGCAC CUGAUGAGGCCGAAAGGCCGAA AAUCACA 2375  170 UCUUCUC CUGAUGAGGCCGAAAGGCCGAA AGAGCUG 2376  208 GGCUGAG CUGAUGAGGCCGAAAGGCCGAA AUUCGCC 2377  209 GGGCUGA CUGAUGAGGCCGAAAGGCCGAA AAUUCGC 2378  233 GACAGCG CUGAUGAGGCCGAAAGGCCGAA AUCUCCC 2379  267 AGCCCUU CUGAUGAGGCCGAAAGGCCGAA AUUGGGU 2380  267 AGCCCUU CUGAUGAGGCCGAAAGGCCGAA AUUGGGU 2381  275 UAACCCG CUGAUGAGGCCGAAAGGCCGAA AGCCCUU 2382  275 UAACCCG CUGAUGAGGCCGAAAGGCCGAA AGCCCUU 2383  276 UUAACCC CUGAUGAGGCCGAAAGGCCGAA AAGCCCU 2384  281 CCUUCUU CUGAUGAGGCCGAAAGGCCGAA ACCCGAA 2385  281 CCUUCUU CUGAUGAGGCCGAAAGGCCGAA ACCCGAA 2386  314 AGGUACA CUGAUGAGGCCGAAAGGCCGAA ACAGUGU 2387  354 GCCUCGC CUGAUGAGGCCGAAAGGCCGAA AUCCUUG 2388  386 AGCCAGG CUGAUGAGGCCGAAAGGCCGAA AUACAGG 2389  394 AACUCCA CUGAUGAGGCCGAAAGGCCGAA AGCCAGG 2390  394 AACUCCA CUGAUGAGGCCGAAAGGCCGAA AGCCAGG 2391  395 UAACUCC CUGAUGAGGCCGAAAGGCCGAA AAGCCAG 2392  429 CAGACGG CUGAUGAGGCCGAAAGGCCGAA AUCAGUG 2393  434 GAUGACA CUGAUGAGGCCGAAAGGCCGAA ACGGUAU 2394  434 GAUGACA CUGAUGAGGCCGAAAGGCCGAA ACGGUAU 2395  441 GGGCAGG CUGAUGAGGCCGAAAGGCCGAA AUGACAG 2396  452 AGAAGCC CUGAUGAGGCCGAAAGGCCGAA ACUGGGC 2397  452 AGAAGCC CUGAUGAGGCCGAAAGGCCGAA ACUGGGC 2398  457 GGAGAAG CUGAUGAGGCCGAAAGGCCGAA AGCCGAC 2399  458 UGGAGAA CUGAUGAGGCCGAAAGGCCGAA AAGCCGA 2400  460 AUUGGAG CUGAUGAGGCCGAAAGGCCGAA AGAAGCC 2401  461 GAUUGGA CUGAUGAGGCCGAAAGGCCGAA AAGAAGC 2402  463 CUGAUUG CUGAUGAGGCCGAAAGGCCGAA AGAAGAA 2403  472 AAGUGAU CUGAUGAGGCCGAAAGGCCGAA ACUGAUU 2404  472 AAGUGAU CUGAUGAGGCCGAAAGGCCGAA ACUGAUU 2405  479 UUUCGAA CUGAUGAGGCCGAAAGGCCGAA AGUGAUG 2406  480 UUUUCGA CUGAUGAGGCCGAAAGGCCGAA AAGUGAU 2407  481 CUUUUCG CUGAUGAGGCCGAAAGGCCGAA AAAGUGA 2408  481 CUUUUCG CUGAUGAGGCCGAAAGGCCGAA AAAGUGA 2409  492 CAGGGAU CUGAUGAGGCCGAAAGGCCGAA ACACUUU 2410  560 CACAGAU CUGAUGAGGCCGAAAGGCCGAA ACAUUAG 2411  563 AACCACA CUGAUGAGGCCGAAAGGCCGAA AUGACAU 2412  572 GGGACUU CUGAUGAGGCCGAAAGGCCGAA AAACCAC 2413  572 GGGACUU CUGAUGAGGCCGAAAGGCCGAA AAACCAC 2414  577 CAUCCGG CUGAUGAGGCCGAAAGGCCGAA ACUUUAA 2415  620 UGAUGAG CUGAUGAGGCCGAAAGGCCGAA AUGCCCA 2416  626 AAAUGGU CUGAUGAGGCCGAAAGGCCGAA AUGAGGA 2417  632 CCCCGAA CUGAUGAGGCCGAAAGGCCGAA AUGGUGA 2418  632 CCCCGAA CUGAUGAGGCCGAAAGGCCGAA AUGGUGA 2419  634 CACCCCG CUGAUGAGGCCGAAAGGCCGAA AAAUGGU 2420  635 ACACCCC CUGAUGAGGCCGAAAGGCCGAA AAAAUGG 2421  635 ACACCCC CUGAUGAGGCCGAAAGGCCGAA AAAAUGG 2422  635 ACACCCC CUGAUGAGGCCGAAAGGCCGAA AAAAUGG 2423  647 UGAUAUA CUGAUGAGGCCGAAAGGCCGAA AGAAACA 2424  649 UUUGAUA CUGAUGAGGCCGAAAGGCCGAA AGAGAAA 2425  651 UUUUUGA CUGAUGAGGCCGAAAGGCCGAA AUAGAGA 2426  653 CCUUUUU CUGAUGAGGCCGAAAGGCCGAA AUAUAGA 2427  735 CCGGGAU CUGAUGAGGCCGAAAGGCCGAA AUCUUCC 2428  759 UGCACUG CUGAUGAGGCCGAAAGGCCGAA AGCAGCG 2429  794 CCUGUGU CUGAUGAGGCCGAAAGGCCGAA ACAGGCU 2430  794 CCUGUGU CUGAUGAGGCCGAAAGGCCGAA ACAGGCU 2431  819 GAGAUGC CUGAUGAGGCCGAAAGGCCGAA ACUCUCU 2432  824 GCACUGA CUGAUGAGGCCGAAAGGCCGAA AUGCGAC 2433  826 CUGCACU CUGAUGAGGCCGAAAGGCCGAA AGAUGCG 2434  876 GGGUUCA CUGAUGAGGCCGAAAGGCCGAA ACCAGGG 2435  913 GGUCAGC CUGAUGAGGCCGAAAGGCCGAA AGCAGCC 2436  997 AAAAAGC CUGAUGAGGCCGAAAGGCCGAA AGUUGAG 2437 1003 AUCCUUA CUGAUGAGGCCGAAAGGCCGAA AAAGCAA 2438 1003 AUCCUUA CUGAUGAGGCCGAAAGGCCGAA AAAGCAA 2439 1023 GAUGCCC CUGAUGAGGCCGAAAGGCCGAA AGCUUUC 2440 1048 UGGUAGA CUGAUGAGGCCGAAAGGCCGAA AUCACUG 2441 1052 CACUUGG CUGAUGAGGCCGAAAGGCCGAA AGAUAUC 2442 1081 GCAAGAC CUGAUGAGGCCGAAAGGCCGAA ACUCUGG 2443 1084 GCAGCAA CUGAUGAGGCCGAAAGGCCGAA ACAACUC 2444 1086 CCGCAGC CUGAUGAGGCCGAAAGGCCGAA AGACAAC 2445 1097 UACAGUG CUGAUGAGGCCGAAAGGCCGAA ACGCCGC 2446 1098 UUACAGU CUGAUGAGGCCGAAAGGCCGAA AACGCCG 2447 1118 ACUCCUG CUGAUGAGGCCGAAAGGCCGAA AGCCACG 2448 1118 ACUCCUG CUGAUGAGGCCGAAAGGCCGAA AGCCACG 2449 1141 CGAGCAC CUGAUGAGGCCGAAAGGCCGAA AGCUGCG 2450 1164 UGAUGGC CUGAUGAGGCCGAAAGGCCGAA ACCAGGU 2451 1202 GUAUAAA CUGAUGAGGCCGAAAGGCCGAA AAUUACA 2452 1220 AGUUUCU CUGAUGAGGCCGAAAGGCCGAA AGAUGCC 2453 1220 AGUUUCU CUGAUGAGGCCGAAAGGCCGAA AGAUGCC 2454 1228 CCUGCUA CUGAUGAGGCCGAAAGGCCGAA AGUUUCU 2455 1253 AUUCCAC CUGAUGAGGCCGAAAGGCCGAA ACCUGUU 2456 1331 GGGCAGC CUGAUGAGGCCGAAAGGCCGAA AGCUCCU 2457 1362 UCCCAGG CUGAUGAGGCCGAAAGGCCGAA AUCAAAA 2458 1373 UUACCAU CUGAUGAGGCCGAAAGGCCGAA AAGUCCC 2459 1373 UUACCAU CUGAUGAGGCCGAAAGGCCGAA AAGUCCC 2460 1413 GAGGUCA CUGAUGAGGCCGAAAGGCCGAA AUGACAA 2461 1443 CACGGGG CUGAUGAGGCCGAAAGGCCGAA ACAUUAC 2462 1470 AUUUUAG CUGAUGAGGCCGAAAGGCCGAA AUAUGUG 2463 1492 UCUACAA CUGAUGAGGCCGAAAGGCCGAA ACACCAC 2464 1497 UAAUUUC CUGAUGAGGCCGAAAGGCCGAA ACAAUAC 2465 1508 GGCGGAU CUGAUGAGGCCGAAAGGCCGAA AAAUAAU 2466 1508 GGCGGAU CUGAUGAGGCCGAAAGGCCGAA AAAUAAU 2467 1523 CAGGUAG CUGAUGAGGCCGAAAGGCCGAA AACCCAG 2468

TABLE XIV Human B7 Hairpin Ribozyme and Target Sequence nt. Seq. ID Seq. ID Position Hairpin Ribozyme Sequence No. Substrate No.  286 ACAGGCAG AGAA GAUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2469 GUCAUCA GCC CUGCCUGU 2490   291 GCAAAACA AGAA GGGCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2470 CAGCCCU GCC UGUUUUGC 2491  295 AGGUGCAA AGAA GGCAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2471 CCUGCCU GUU UUGCACCU 2492  437 GCACCAAG AGAA GAAAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2472 UCUUUCA GCU CUUGGUGC 2493  469 AACACCUG AGAA GAAGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2473 CACUUCU GUU CAGGUGUU 2494  518 GACCACAG AGAA GCGUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2474 CAACGCU GUC CUGUGGUC 2495  540 AGCUCUUC AGAA GAAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2475 UGUUUCU GUU GAAGAGCU 2496  596 ACAUCAUA AGAA GCACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2476 UGGUGCU GAC UAUGAUGU 2497  644 CAAAGAUG AGAA GGUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2477 AGAACCG GAC CAUCUUUG 2498  702 GUGCCCUC AGAA GAUGGd ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2478 CCCAUCU GAC GAGGGCAC 2499  795 GUAGGGAA AGAA GCUUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2479 CAAAGCU GAC UUCCCUAC 2500  819 AUUUCAAA AGAA GAUAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2480 UAUAUCU GAC UUUGAAAU 2501  939 UCUUGGGA AGAA GUUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2481 CACAACA GUU UCCCAAGA 2502 1012 ACACAUGA AGAA GUGGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2482 AACCACA GCU UCAUGUGU 2503 1055 AGUUGAAG AGAA GAUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2483 UGAAUCA GAC CUUCAACU 2504 1103 AGGAUGGG AGAA GGUUAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2484 AUAACCU GCU CCCAUCCU 2505 1159 GUAGGUCA AGAA GCAUAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2485 AUAUGCU GCC UGACCUAC 2506 1163 AGdAGUAG AGAA GGCAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2486 GCUGCCU GAC CUACUGCU 2507 1171 UGGGGCAA AGAA GUAGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2487 ACCUACU GCU UUGCCCCA 2508 1356 GUGGGUAA AGAA GCUUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2488 UUAAGCU GUU UUACCCAC 2509 1395 UCAdCUUA AGAA GAAAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2489 UCUUUCA GAU UAAGCUGA 2510

TABLE XV Mouse B7 Hairpin Ribozyme and Target Sequence nt. Seq. ID Seq. ID Position Hairpin Ribozyme Sequence No. Substrate No.  74 AGAAAUGG AGAA GAGUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2511 ACACUCU GUU CCAUUUCU 2534  114 AUCCACCC AGAA GAUGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2512 AGCAUCU GCC GGGUGGAU 2535  154 AAUCGAGA AGAA GAGAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2513 CAUCUCU GUU UCUCGAUU 2536  265 CCUGCAUC AGAA GACAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2514 AUGUCA GUU GAUGCAGG 2537  328 GACGAAUC AGAA GCACAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2515 UUGUGCU GCU GAUUCGUC 2538  331 AAAGACGA AGAA GCAGCA ACCAdAGAAACACACGUUGUGGUACAUUACCUGGUA 2516 UGCUGCU GAU UCGUCUUU 2539  356 UCAUCAAC AGAA GAAGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2517 GUCUUCA GAU GUUGAUGA 2540  373 CUGACUUG AGAA GUUGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2518 AACAACU GUC CAAGUCAG 2541  403 AACGGCAA AGAA GCAAUA ACCAdAGAAACACACGUUGUGGUACAUUACCUGGUA 2519 UAUUGCU GCC UUGCCGUU 2542  481 CAAUGACA AGAA GCACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2520 UGGUGCU GUC UGUCAUUG 2543  529 CAUAUAAA AGAA GGUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2521 AGAACCG GAC UUUAUAUG 2544  584 GUGCCCCG AGAA GAAAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2522 CCUUUCA GAC CGGGGCAC 2545  600 AACGACAC AGAA GUAUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2523 ACAUACA GCU GUGUCGUU 2546  677 GUAGAGAA AGAA GCUUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2524 CAAAGCU GAC UUCUCUAC 2547  741 GGAAGCAA AGAA GGUAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2525 AUUACCU GCU UUGCUUCC 2548 1028 AUGACGAC AGAA GUUAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2526 AAUAACA GUC GUCGUCAU 2549 1077 UCUUCUGA AGAA GCUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2527 AGAAGCU GUU UCAGAAGA 2550 1116 GAAGGUAA AGAA GUUGUU ACCAGA9AAACACACGUUGUGGUACAUUACCUGGUA 2528 AACAACA GCC UUACCUUC 2551 1153 GGAAGACG AGAA GUUCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2529 CUGAACA GAC CGUCUUCC 2552 1157 UAAAGGAA AGAA GUCUGU ACGAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2530 ACAGACC GUC UUCCUUUA 2553 1178 CCCACAUG AGAA GAGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2531 CUUCUCU GUC CAUGUGGG 2554 1246 UCCGAAAG AGAA GCUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2532 GCUAGCU GAU CUUUCGGA 2555 1523 CAGAAAAG AGAA GGCCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2533 GAGGCCU GCC CUUUUCUG 2556

TABLE XVI Human B7-2 Hairpin Ribozyme and Target Sequences nt. Seq. ID Seq. ID Position HP Ribozyme Sequences No. Substrate No.   25 GUUACAGC AGAA GAGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2557 CUUCUCU GCU GCUGUAAC 2578   28 CCUGUUAC AGAA GCAGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2558 CUCUGCU GCU GUAACAGG 2579   57 CCCCACUC AGAA GUGUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2559 ACACACG GAU GAGUGGGG 2580  162 CACCAGAG AGAA GGAAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2560 CCUUCCU GCU CUCUGGUG 2581  175 UUCAGAGG AGAA GCACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2561 UGGUGCU GCU CCUCUGAA 2582  214 CAUGGCAG AGAA GCAGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2562 GACUGCA GAC CUGCCAUG 2583  380 CAGGGUCC AGAA GUCCGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2563 UCGGACA GUU GGACCCUG 2584  408 UGUCCUUG AGAA GAAGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2564 AUCUUCA GAU CAAGGACA 2585  480 CAGAAUUC AGAA GQUGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2565 UCCACCA GAU GAAUUCUG 2586  575 UAUAGAUG AGAA GGUCAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2566 UUGACCU GCU CAUCUAUA 2587  710 AACAGACA AGAA GAUGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2567 UCCAUCA GCU UGUCUGUU 2588  718 GGGAAUGA AGAA GACAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2568 CUUGUCU GUU UCAUUCCC 2589  730 CUCGUAAC AGAA GGGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2569 AUUCCCU GAU GUUACGAG 2590  783 AAGAUAAA AGAA GCGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2570 AGACGCG GCU UUUAUCUU 2591  825 CUGGGGGA AGAA GAGGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2571 ACCCUCA GCC UCCCCCAG 2592  835 GGAAUGUG AGAA GGGGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2572 UCCCCCA GAC CACAUUCC 2593  856 GGAAGUAC AGAA GUAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2573 GAUUACA GCU GUACUUCC 2594  896 UAGAAUUA AGAA GAAAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2574 GUUUUCU GUC UAAUUCUA 2595  930 AGUUGCGA AGAA GCUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2575 AGAAGCG GCC UCGCAACU 2596  987 UUUUCUUG AGAA GUUCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2576 GUGAACA GAC CAAGAAAA 2597 1027 UGGGCUUC AGAA GAUCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2577 AAGAUCU GAU GAAGCCCA 2598

TABLE XVII Mouse B7-2 Hairpin Ribozyme and Target Sequences nt. Seq. ID Seq. ID Position HP Ribozyme Sequences No. Substrate No.   10 UCUUACGC AGAA GCUUGCACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2599 GCAAGCA GAC GCGUAAGA 2620   42 UUGUUCAA AGAA GUGCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2600 CAGCACG GAC UUGAACAA 2621   56 CUACAGGA AGAA GGUUGU ACCAGAGAAACACACGUUGUGGUACAUUACGUGGUA 2601 ACAACCA GAC UCCUGUAG 2622  108 CAUGGUGC AGAA GGGGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2602 GACCCCA GAU GCACCAUG 2623  146 AUCAGCAA AGAA GUCACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2603 UGUGACA GUC UUGCUGAU 2624  154 CAUCUGAG AGAA GCAAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2604 UCUUGCU GAU CUCAGAUG 2625  161 GAAACAGC AGAA GAGAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2665 GAUCUCA GAU GCUGUUUC 2626  167 UCCACGGA AGAA GCAUCU AGCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2606 AGAUGCU GUU UCCGUGGA 2627  211 AUGGGCAC AGAA GAUAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2607 CAUAUCU GCC GUGCCCAU 2628  400 UGUCCUUG AGAA GAACAU ACCAGAGAAACAGACGUUGUGGUACAUUACCUGGUA 2608 AUGUUCA GAU CAAGGACA 2629  679 AGAUACUG AGAA GUUCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2609 CAGAACU GUU CAGUAUCU 2630  696 AAGAGAGA AGAA GUUGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2610 UCCAACA GCC UGUGUCUU 2631  716 CACACACC AGAA GGGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2611 AUUCCCG GAU GGUGUGUG 2632  737 ACACACAC AGAA GUCAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2612 UAUGACG GUU GUGUGUGU 2633  839 GUAACUGA AGAA GUAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2613 GAUUACA GCU UCAGUUAC 2634  874 CAAUGAUG AGAA GCAUCA ACCAGAGAAACACAdGUUGUGGUACAUUACCUGGUA 2614 UGAUGCU GCU CAUCAUUG 2635  907 GCCUGCUA AGAA GAUUCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2615 CGAAUCA GCC UAGCAGGC 2636  929 AACUUAGA AGAA GUGUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2616 GAACACA GCC UCUAAGUU 2637 1115 UUCCAAUC AGAA GAGAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2617 GUUCUCA GCU GAUUGGAA 2638 1118 GAAUUCCA AGAA GCUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2618 CUGAGCU GAU UGGAAUUC 2639 1133 AAUUAUUC AGAA GUAGAA ACCAGAGAAACACAdGUUGUGGUACAUUACCUGGUA 2619 UUCUACA GUU GAAUAAUU 2640

TABLE XVIII Human CD40 Hairpin Ribozyme and Target Sequences nt. Seq. ID Seq. ID Position Hairpin Ribozyme Sequences No. Substrate No.  26 GACCAGGC AGAA GGACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2641 UGGUCCU GCC GCCUGGUC 2665  29 UGAGACCA AGAA GCAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2642 UCCUGCC GCC UGGUCUCA 2666  58 ACUGCAGA AGAA GACGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2643 UUCGUCU GCC UCUGCAGU 2667  84 GGUCAGCA AGAA GCCCCA ACCAGAGAAACACACGUUGU9GUACAUUACCUGGUA 2644 UGGGGCU GCU UGCUGACC 2668  91 GGACAGCG AGAA GCAAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGdUA 2645 GCUUGCU GAC CGCUGUCC 2669  95 GGAUGGAC AGAA GUCAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2646 GCUGACC GCU GUCCAUCC 2670  98 UCUGGAUG AGAA GCGGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2647 GACCGCU GUC CAUCCAGA 2671 159 GCACAAAG AGAA GCACUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2648 CAGUGCU GUU CUUUGUGC 2672 414 CGAGCAUG AGAA GUGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2649 CUGCACC GCU CAUGCUCG 2673 429 GACCCCAA AGAA GGGCGA AGCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2650 UCGCCCG GCU UUGGGGUC 2674 445 CUGUAGCA AGAA GCUUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2651 UCAAGCA GAU UGCUACAG 2675 483 GCCGACUG AGAA GGGCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2652 GAGCCCU GCC CAGUCGGC 2676 488 AAGAAGCC AGAA GGGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2653 CUGCCCA GUC GGCUUCUU 2677 492 GGAGAAGA AGAA GACUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2654 CCAGUCG GCU UCUUCUCC 2678 515 UUUUCGAA AGAA GAUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2655 GUCAUCU GCU UUCGAAAA 2679 593 CAGACAAC AGAA GUCUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2656 CAAGACU GAU GUUGUCUG 2680 619 GGGCUCUC AGAA GAUCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2657 AGGAUCG GCU GAGAGCCC 2681 661 GGAUGGCA AGAA GGAUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2658 GGAUCCU GUU UGCCAUCC 2682 764 GGAAGAUC AGAA GGAAAA ACCAGAGAAACACACGUUQUGGUACAUUACCUGGUA 2659 UUUUCCC GAC GAUCUUCC 2683 788 ACUGGAGC AGAA GUGUUG ACCAQAGAAACACACGUUGUGGUACAUUACCUGGUA 2660 CAACACU GCU GCUCCAGU 2684 791 UGCACUGG AGAA GCAGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2661 CACUGCU GCU CCAGUGCA 2685 924 CUCUGGCC AGAA GCCUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2662 ACAGGCA GUU GGCCAGAG 2686 946 CCUGCAGC AGAA GCACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2663 UGGUGCU GCU GCUGCAGG 2687 949 ACCCCUGC AGAA GCAGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2664 UGCUGCU GCU GCAGGGGU 2688

TABLE XIX Mouse CD40 Hairpin Ribozyme and Substrate Sequences nt. Seq. ID Seq. ID Position HP Ribozyme Sequences No. Substrate No.   25 GCGCGCAC AGAA GAGGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2689 UGCCUCG GCU GUGCGCGC 2717   45 UGUCAACA AGAA GCCCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2690 UGGGGCU GCU UGUUGACA 2718   59 CCUAGAUG AGAA GCUGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2691 GACAGCG GUC CAUCUAGG 2719  144 GCUUGUCA AGAA GCUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2692 GGAAGCC GAC UGACAAGC 2720  164 UUCUCAAG AGAA GUGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2693 CUGCACA GCU CUUGAGAA 2721  212 UUCCACUG AGAA GAGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2694 AUUCUCA GCC CAGUGGAA 2722  311 CAGGUACA AGAA GUGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2695 AGACACU GUC UGUACCUG 2723  431 GGAUGACA AGAA GUAUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2696 UGAUACC GUC UGUCAUCC 2724  444 GCCGACUG AGAA GGGAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2697 CAUCCCU GCC CAGUCGGC 2725  449 AAGAAGCC AGAA GGGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2698 CUGCCCA GUC GGCUUCUU 2726  453 GGAGAAGA AGAA GACUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2699 CCAGUCG GCU UCUUCUCC 2727  550 UGACAUUA AGAA GACUCG AGCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2700 CGAGUCA GAC UAAUGUCA 2728  580 GGGCUCGC AGAA GGGACU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2701 AGUCCCG GAU GCGAGCCC 2729  592 GAAUGACC AGAA GGGCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2702 GAGCCCU GCU GGUCAUUC 2730  605 CCCAUCAC AGAA GGAAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2703 CAUUCCU GUC GUGAUGGG 2731  701 UGCCGUCG AGAA GCAGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2704 CCCUGCG GCU CGACGGCA 2732  752 ACUGGAGC AGAA GUGUUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2705 UAACACC GCU GCUCCAGU 2733  755 UGCACUGG AGAA GCGGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2706 CACCGCU GCU CCAGUGCA 2734  787 GUGUGACA AGAA GACACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2707 GGUGUCA GCC UGUGACAC 2735  890 CCUCCAAA AGAA GUUCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2708 UGGAACU GCU UUUGGAGG 2736  909 GGUCAGCA AGAA GCCAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2709 GAUGGCU GCU UGCUGACC 2737  916 UUCAAAAG AGAA GCAAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2710 GCUUGCU GAC CUUUUGAA 2738  975 UGACAGGG AGAA GGCAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2711 CAUGCCU GCC CCCUGUCA 2739 1137 CGAGCACA AGAA GCGGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2712 GCCCGCA GCU UGUGCUCG 2740 1276 GUUUUAAA AGAA GUUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2713 AGAAACA GCU UUUAAAAC 2741 1334 CGGGUUUG AGAA GCAAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2714 GCUUGCU GCC CAAACCCG 2742 1352 GGAUCAAA AGAA GGUAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2715 GUUACCU GAU UUUGAUCC 2743 1512 AAACCCAG AGAA GAUUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA 2716 UUAAUCC GCC CUGGGUUU 2744

2751 15 base pairs nucleic acid single linear unknown 1 AAACCCUCUG UAAAG 15 15 base pairs nucleic acid single linear unknown 2 CCUCUGUAAA GUAAC 15 15 base pairs nucleic acid single linear unknown 3 GUAAAGUAAC AGAAG 15 15 base pairs nucleic acid single linear unknown 4 CAGAAGUUAG AAGGG 15 15 base pairs nucleic acid single linear unknown 5 AGAAGUUAGA AGGGG 15 15 base pairs nucleic acid single linear unknown 6 GAAAUGUCGC CUCUC 15 15 base pairs nucleic acid single linear unknown 7 GUCGCCUCUC UGAAG 15 15 base pairs nucleic acid single linear unknown 8 CGCCUCUCUG AAGAU 15 15 base pairs nucleic acid single linear unknown 9 UGAAGAUUAC CCAAA 15 15 base pairs nucleic acid single linear unknown 10 GAAGAUUACC CAAAG 15 15 base pairs nucleic acid single linear unknown 11 AAGUGAUUUG UCAUU 15 15 base pairs nucleic acid single linear unknown 12 AGUGAUUUGU CAUUG 15 15 base pairs nucleic acid single linear unknown 13 GAUUUGUCAU UGCUU 15 15 base pairs nucleic acid single linear unknown 14 UUGUCAUUGC UUUAU 15 15 base pairs nucleic acid single linear unknown 15 CAUUGCUUUA UAGAC 15 15 base pairs nucleic acid single linear unknown 16 AUUGCUUUAU AGACU 15 15 base pairs nucleic acid single linear unknown 17 UUGCUUUAUA GACUG 15 15 base pairs nucleic acid single linear unknown 18 GCUUUAUAGA CUGUA 15 15 base pairs nucleic acid single linear unknown 19 AGACUGUAAG AAGAG 15 15 base pairs nucleic acid single linear unknown 20 AGAACAUCUC AGAAG 15 15 base pairs nucleic acid single linear unknown 21 AACAUCUCAG AAGUG 15 15 base pairs nucleic acid single linear unknown 22 GUGGAGUCUU ACCCU 15 15 base pairs nucleic acid single linear unknown 23 GGAGUCUUAC CCUGA 15 15 base pairs nucleic acid single linear unknown 24 GAGUCUUACC CUGAA 15 15 base pairs nucleic acid single linear unknown 25 CUGAAAUCAA AGGAU 15 15 base pairs nucleic acid single linear unknown 26 AAAGGAUUUA AAGAA 15 15 base pairs nucleic acid single linear unknown 27 AAGGAUUUAA AGAAA 15 15 base pairs nucleic acid single linear unknown 28 AGGAUUUAAA GAAAA 15 15 base pairs nucleic acid single linear unknown 29 GUGGAAUUUU UCUUC 15 15 base pairs nucleic acid single linear unknown 30 UGGAAUUUUU CUUCA 15 15 base pairs nucleic acid single linear unknown 31 GGAAUUUUUC UUCAG 15 15 base pairs nucleic acid single linear unknown 32 GAAUUUUUCU UCAGC 15 15 base pairs nucleic acid single linear unknown 33 AAUUUUUCUU CAGCA 15 15 base pairs nucleic acid single linear unknown 34 UUUUUCUUCA GCAAG 15 15 base pairs nucleic acid single linear unknown 35 UUUUCUUCAG CAAGC 15 15 base pairs nucleic acid single linear unknown 36 UGAAACUAAA UCCAC 15 15 base pairs nucleic acid single linear unknown 37 ACUAAAUCCA CAACC 15 15 base pairs nucleic acid single linear unknown 38 ACAACCUUUG GAGAC 15 15 base pairs nucleic acid single linear unknown 39 CAACCUUUGG AGACC 15 15 base pairs nucleic acid single linear unknown 40 ACACCCUCCA AUCUC 15 15 base pairs nucleic acid single linear unknown 41 CUCCAAUCUC UGUGU 15 15 base pairs nucleic acid single linear unknown 42 CCAAUCUCUG UGUGU 15 15 base pairs nucleic acid single linear unknown 43 UGUGUGUUUU GUAAA 15 15 base pairs nucleic acid single linear unknown 44 GUGUGUUUUG UAAAC 15 15 base pairs nucleic acid single linear unknown 45 UGUGUUUUGU AAACA 15 15 base pairs nucleic acid single linear unknown 46 GUUUUGUAAA CAUCA 15 15 base pairs nucleic acid single linear unknown 47 UAAACAUCAC UGGAG 15 15 base pairs nucleic acid single linear unknown 48 GGAGGGUCUU CUACG 15 15 base pairs nucleic acid single linear unknown 49 AGGGUCUUCU ACGUG 15 15 base pairs nucleic acid single linear unknown 50 GGGUCUUCUA CGUGA 15 15 base pairs nucleic acid single linear unknown 51 GUCUUCUACG UGAGC 15 15 base pairs nucleic acid single linear unknown 52 GAGCAAUUGG AUUGU 15 15 base pairs nucleic acid single linear unknown 53 AUUGGAUUGU CAUCA 15 15 base pairs nucleic acid single linear unknown 54 GGAUUGUCAU CAGCC 15 15 base pairs nucleic acid single linear unknown 55 UUGUCAUCAG CCCUG 15 15 base pairs nucleic acid single linear unknown 56 UGCCUGUUUU GCACC 15 15 base pairs nucleic acid single linear unknown 57 GCCUGUUUUG CACCU 15 15 base pairs nucleic acid single linear unknown 58 CCUGUUUUGC ACCUG 15 15 base pairs nucleic acid single linear unknown 59 CCCUGGUCUU ACUUG 15 15 base pairs nucleic acid single linear unknown 60 CUGGUCUUAC UUGGG 15 15 base pairs nucleic acid single linear unknown 61 UGGUCUUACU UGGGU 15 15 base pairs nucleic acid single linear unknown 62 UCUUACUUGG GUCCA 15 15 base pairs nucleic acid single linear unknown 63 CUUGGGUCCA AAUUG 15 15 base pairs nucleic acid single linear unknown 64 UCCAAAUUGU UGGCU 15 15 base pairs nucleic acid single linear unknown 65 AAAUUGUUGG CUUUC 15 15 base pairs nucleic acid single linear unknown 66 GUUGGCUUUC ACUUU 15 15 base pairs nucleic acid single linear unknown 67 UUGGCUUUCA CUUUU 15 15 base pairs nucleic acid single linear unknown 68 UGGCUUUCAC UUUUG 15 15 base pairs nucleic acid single linear unknown 69 UUUCACUUUU GACCC 15 15 base pairs nucleic acid single linear unknown 70 UUCACUUUUG ACCCU 15 15 base pairs nucleic acid single linear unknown 71 UCACUUUUGA CCCUA 15 15 base pairs nucleic acid single linear unknown 72 UGACCCUAAG CAUCU 15 15 base pairs nucleic acid single linear unknown 73 UAAGCAUCUG AAGCC 15 15 base pairs nucleic acid single linear unknown 74 GGAACAUCAC CAUCC 15 15 base pairs nucleic acid single linear unknown 75 UCACCAUCCA AGUGU 15 15 base pairs nucleic acid single linear unknown 76 CAAGUGUCCA UACCU 15 15 base pairs nucleic acid single linear unknown 77 UGUCCAUACC UCAAU 15 15 base pairs nucleic acid single linear unknown 78 CAUACCUCAA UUUCU 15 15 base pairs nucleic acid single linear unknown 79 CCUCAAUUUC UUUCA 15 15 base pairs nucleic acid single linear unknown 80 CUCAAUUUCU UUCAG 15 15 base pairs nucleic acid single linear unknown 81 UCAAUUUCUU UCAGC 15 15 base pairs nucleic acid single linear unknown 82 AAUUUCUUUC AGCUC 15 15 base pairs nucleic acid single linear unknown 83 AUUUCUUUCA GCUCU 15 15 base pairs nucleic acid single linear unknown 84 UUUCUUUCAG CUCUU 15 15 base pairs nucleic acid single linear unknown 85 UUCAGCUCUU GGUGC 15 15 base pairs nucleic acid single linear unknown 86 CAGCUCUUGG UGCUG 15 15 base pairs nucleic acid single linear unknown 87 GGCUGGUCUU UCUCA 15 15 base pairs nucleic acid single linear unknown 88 CUGGUCUUUC UCACU 15 15 base pairs nucleic acid single linear unknown 89 UGGUCUUUCU CACUU 15 15 base pairs nucleic acid single linear unknown 90 GGUCUUUCUC ACUUC 15 15 base pairs nucleic acid single linear unknown 91 UCUUUCUCAC UUCUG 15 15 base pairs nucleic acid single linear unknown 92 UCUCACUUCU GUUCA 15 15 base pairs nucleic acid single linear unknown 93 CUCACUUCUG UUCAG 15 15 base pairs nucleic acid single linear unknown 94 CUUCUGUUCA GGUGU 15 15 base pairs nucleic acid single linear unknown 95 UUCUGUUCAG GUGUU 15 15 base pairs nucleic acid single linear unknown 96 CAGGUGUUAU CCACG 15 15 base pairs nucleic acid single linear unknown 97 AGGUGUUAUC CACGU 15 15 base pairs nucleic acid single linear unknown 98 GUGUUAUCCA CGUGA 15 15 base pairs nucleic acid single linear unknown 99 ACGCUGUCCU GUGGU 15 15 base pairs nucleic acid single linear unknown 100 CUGUGGUCAC AAUGU 15 15 base pairs nucleic acid single linear unknown 101 ACAAUGUUUC UGUUG 15 15 base pairs nucleic acid single linear unknown 102 CAAUGUUUCU GUUGA 15 15 base pairs nucleic acid single linear unknown 103 AAUGUUUCUG UUGAA 15 15 base pairs nucleic acid single linear unknown 104 UUUCUGUUGA AGAGC 15 15 base pairs nucleic acid single linear unknown 105 ACAAACUCGC AUCUA 15 15 base pairs nucleic acid single linear unknown 106 CUCGCAUCUA CUGGC 15 15 base pairs nucleic acid single linear unknown 107 CGCAUCUACU GGCAA 15 15 base pairs nucleic acid single linear unknown 108 GCUGACUAUG AUGUC 15 15 base pairs nucleic acid single linear unknown 109 AUGAUGUCUG GGGAC 15 15 base pairs nucleic acid single linear unknown 110 CAUGAAUAUA UGGCC 15 15 base pairs nucleic acid single linear unknown 111 UGAAUAUAUG GCCCG 15 15 base pairs nucleic acid single linear unknown 112 CCCGAGUACA AGAAC 15 15 base pairs nucleic acid single linear unknown 113 GGACCAUCUU UGAUA 15 15 base pairs nucleic acid single linear unknown 114 ACCAUCUUUG AUAUC 15 15 base pairs nucleic acid single linear unknown 115 CCAUCUUUGA UAUCA 15 15 base pairs nucleic acid single linear unknown 116 CUUUGAUAUC ACUAA 15 15 base pairs nucleic acid single linear unknown 117 UUGAUAUCAC UAAUA 15 15 base pairs nucleic acid single linear unknown 118 UAUCACUAAU AACCU 15 15 base pairs nucleic acid single linear unknown 119 CACUAAUAAC CUCUC 15 15 base pairs nucleic acid single linear unknown 120 AUAACCUCUC CAUUG 15 15 base pairs nucleic acid single linear unknown 121 AACCUCUCCA UUGUG 15 15 base pairs nucleic acid single linear unknown 122 UCUCCAUUGU GAUCC 15 15 base pairs nucleic acid single linear unknown 123 UUGUGAUCCU GGCUC 15 15 base pairs nucleic acid single linear unknown 124 CCUGGCUCUG CGCCC 15 15 base pairs nucleic acid single linear unknown 125 CGCCCAUCUG ACGAG 15 15 base pairs nucleic acid single linear unknown 126 GGCACAUACG AGUGU 15 15 base pairs nucleic acid single linear unknown 127 AGUGUGUUGU UCUGA 15 15 base pairs nucleic acid single linear unknown 128 GUGUUGUUCU GAAGU 15 15 base pairs nucleic acid single linear unknown 129 UGUUGUUCUG AAGUA 15 15 base pairs nucleic acid single linear unknown 130 CUGAAGUAUG AAAAA 15 15 base pairs nucleic acid single linear unknown 131 AGACGCUUUC AAGCG 15 15 base pairs nucleic acid single linear unknown 132 GACGCUUUCA AGCGG 15 15 base pairs nucleic acid single linear unknown 133 ACGCUUUCAA GCGGG 15 15 base pairs nucleic acid single linear unknown 134 GUGACGUUAU CAGUC 15 15 base pairs nucleic acid single linear unknown 135 UGACGUUAUC AGUCA 15 15 base pairs nucleic acid single linear unknown 136 ACGUUAUCAG UCAAA 15 15 base pairs nucleic acid single linear unknown 137 UAUCAGUCAA AGCUG 15 15 base pairs nucleic acid single linear unknown 138 GCUGACUUCC CUACA 15 15 base pairs nucleic acid single linear unknown 139 CUGACUUCCC UACAC 15 15 base pairs nucleic acid single linear unknown 140 CUUCCCUACA CCUAG 15 15 base pairs nucleic acid single linear unknown 141 UACACCUAGU AUAUC 15 15 base pairs nucleic acid single linear unknown 142 ACCUAGUAUA UCUGA 15 15 base pairs nucleic acid single linear unknown 143 CUAGUAUAUC UGACU 15 15 base pairs nucleic acid single linear unknown 144 AGUAUAUCUG ACUUU 15 15 base pairs nucleic acid single linear unknown 145 UCUGACUUUG AAAUU 15 15 base pairs nucleic acid single linear unknown 146 CUGACUUUGA AAUUC 15 15 base pairs nucleic acid single linear unknown 147 UUGAAAUUCC AACUU 15 15 base pairs nucleic acid single linear unknown 148 UGAAAUUCCA ACUUC 15 15 base pairs nucleic acid single linear unknown 149 UCCAACUUCU AAUAU 15 15 base pairs nucleic acid single linear unknown 150 CCAACUUCUA AUAUU 15 15 base pairs nucleic acid single linear unknown 151 AACUUCUAAU AUUAG 15 15 base pairs nucleic acid single linear unknown 152 UUCUAAUAUU AGAAG 15 15 base pairs nucleic acid single linear unknown 153 CUAAUAUUAG AAGGA 15 15 base pairs nucleic acid single linear unknown 154 UAAUAUUAGA AGGAU 15 15 base pairs nucleic acid single linear unknown 155 GAAGGAUAAU UUGCU 15 15 base pairs nucleic acid single linear unknown 156 GGAUAAUUUG CUCAA 15 15 base pairs nucleic acid single linear unknown 157 GAUAAUUUGC UCAAC 15 15 base pairs nucleic acid single linear unknown 158 AUUUGCUCAA CCUCU 15 15 base pairs nucleic acid single linear unknown 159 UCAACCUCUG GAGGU 15 15 base pairs nucleic acid single linear unknown 160 UGGAGGUUUU CCAGA 15 15 base pairs nucleic acid single linear unknown 161 GGAGGUUUUC CAGAG 15 15 base pairs nucleic acid single linear unknown 162 GAGGUUUUCC AGAGC 15 15 base pairs nucleic acid single linear unknown 163 AGGUUUUCCA GAGCC 15 15 base pairs nucleic acid single linear unknown 164 AGAGCCUCAC CUCUC 15 15 base pairs nucleic acid single linear unknown 165 CUCACCUCUC CUGGU 15 15 base pairs nucleic acid single linear unknown 166 CACCUCUCCU GGUUG 15 15 base pairs nucleic acid single linear unknown 167 UCCUGGUUGG AAAAU 15 15 base pairs nucleic acid single linear unknown 168 GAAGAAUUAA AUGCC 15 15 base pairs nucleic acid single linear unknown 169 AAGAAUUAAA UGCCA 15 15 base pairs nucleic acid single linear unknown 170 AUGCCAUCAA CACAA 15 15 base pairs nucleic acid single linear unknown 171 CAACAGUUUC CCAAG 15 15 base pairs nucleic acid single linear unknown 172 AACAGUUUCC CAAGA 15 15 base pairs nucleic acid single linear unknown 173 ACAGUUUCCC AAGAU 15 15 base pairs nucleic acid single linear unknown 174 CCAAGAUCCU GAAAC 15 15 base pairs nucleic acid single linear unknown 175 CUGAGCUCUA UGCUG 15 15 base pairs nucleic acid single linear unknown 176 GAGCUCUAUG CUGUU 15 15 base pairs nucleic acid single linear unknown 177 AUGCUGUUAG CAGCA 15 15 base pairs nucleic acid single linear unknown 178 UGCUGUUAGC AGCAA 15 15 base pairs nucleic acid single linear unknown 179 ACUGGAUUUC AAUAU 15 15 base pairs nucleic acid single linear unknown 180 CUGGAUUUCA AUAUG 15 15 base pairs nucleic acid single linear unknown 181 UGGAUUUCAA UAUGA 15 15 base pairs nucleic acid single linear unknown 182 UUUCAAUAUG ACAAC 15 15 base pairs nucleic acid single linear unknown 183 CACAGCUUCA UGUGU 15 15 base pairs nucleic acid single linear unknown 184 ACAGCUUCAU GUGUC 15 15 base pairs nucleic acid single linear unknown 185 CAUGUGUCUC AUCAA 15 15 base pairs nucleic acid single linear unknown 186 UGUGUCUCAU CAAGU 15 15 base pairs nucleic acid single linear unknown 187 GUCUCAUCAA GUAUG 15 15 base pairs nucleic acid single linear unknown 188 AUCAAGUAUG GACAU 15 15 base pairs nucleic acid single linear unknown 189 UGGACAUUUA AGAGU 15 15 base pairs nucleic acid single linear unknown 190 GGACAUUUAA GAGUG 15 15 base pairs nucleic acid single linear unknown 191 GACAUUUAAG AGUGA 15 15 base pairs nucleic acid single linear unknown 192 AGUGAAUCAG ACCUU 15 15 base pairs nucleic acid single linear unknown 193 CAGACCUUCA ACUGG 15 15 base pairs nucleic acid single linear unknown 194 AGACCUUCAA CUGGA 15 15 base pairs nucleic acid single linear unknown 195 CUGGAAUACA ACCAA 15 15 base pairs nucleic acid single linear unknown 196 AGAGCAUUUU CCUGA 15 15 base pairs nucleic acid single linear unknown 197 GAGCAUUUUC CUGAU 15 15 base pairs nucleic acid single linear unknown 198 AGCAUUUUCC UGAUA 15 15 base pairs nucleic acid single linear unknown 199 GCAUUUUCCU GAUAA 15 15 base pairs nucleic acid single linear unknown 200 UCCUGAUAAC CUGCU 15 15 base pairs nucleic acid single linear unknown 201 ACCUGCUCCC AUCCU 15 15 base pairs nucleic acid single linear unknown 202 CUCCCAUCCU GGGCC 15 15 base pairs nucleic acid single linear unknown 203 GGGCCAUUAC CUUAA 15 15 base pairs nucleic acid single linear unknown 204 GGCCAUUACC UUAAU 15 15 base pairs nucleic acid single linear unknown 205 AUUACCUUAA UCUCA 15 15 base pairs nucleic acid single linear unknown 206 UUACCUUAAU CUCAG 15 15 base pairs nucleic acid single linear unknown 207 CCUUAAUCUC AGUAA 15 15 base pairs nucleic acid single linear unknown 208 UUAAUCUCAG UAAAU 15 15 base pairs nucleic acid single linear unknown 209 UCUCAGUAAA UGGAA 15 15 base pairs nucleic acid single linear unknown 210 AUGGAAUUUU UGUGA 15 15 base pairs nucleic acid single linear unknown 211 UGGAAUUUUU GUGAU 15 15 base pairs nucleic acid single linear unknown 212 GGAAUUUUUG UGAUA 15 15 base pairs nucleic acid single linear unknown 213 GAAUUUUUGU GAUAU 15 15 base pairs nucleic acid single linear unknown 214 UUGUGAUAUG CUGCC 15 15 base pairs nucleic acid single linear unknown 215 CUGACCUACU GCUUU 15 15 base pairs nucleic acid single linear unknown 216 UACUGCUUUG CCCCA 15 15 base pairs nucleic acid single linear unknown 217 ACUGCUUUGC CCCAA 15 15 base pairs nucleic acid single linear unknown 218 GAGAGAUUGA GAAGG 15 15 base pairs nucleic acid single linear unknown 219 AAAGUGUACG CCCUG 15 15 base pairs nucleic acid single linear unknown 220 GCCCUGUAUA ACAGU 15 15 base pairs nucleic acid single linear unknown 221 CCUGUAUAAC AGUGU 15 15 base pairs nucleic acid single linear unknown 222 ACAGUGUCCG CAGAA 15 15 base pairs nucleic acid single linear unknown 223 AAAAGAUCUG AAGGU 15 15 base pairs nucleic acid single linear unknown 224 UGAAGGUAGC CUCCG 15 15 base pairs nucleic acid single linear unknown 225 GUAGCCUCCG UCAUC 15 15 base pairs nucleic acid single linear unknown 226 CCUCCGUCAU CUCUU 15 15 base pairs nucleic acid single linear unknown 227 CCGUCAUCUC UUCUG 15 15 base pairs nucleic acid single linear unknown 228 GUCAUCUCUU CUGGG 15 15 base pairs nucleic acid single linear unknown 229 CAUCUCUUCU GGGAU 15 15 base pairs nucleic acid single linear unknown 230 AUCUCUUCUG GGAUA 15 15 base pairs nucleic acid single linear unknown 231 CUGGGAUACA UGGAU 15 15 base pairs nucleic acid single linear unknown 232 CAUGGAUCGU GGGGA 15 15 base pairs nucleic acid single linear unknown 233 UGGGGAUCAU GAGGC 15 15 base pairs nucleic acid single linear unknown 234 GAGGCAUUCU UCCCU 15 15 base pairs nucleic acid single linear unknown 235 AGGCAUUCUU CCCUU 15 15 base pairs nucleic acid single linear unknown 236 GCAUUCUUCC CUUAA 15 15 base pairs nucleic acid single linear unknown 237 CAUUCUUCCC UUAAC 15 15 base pairs nucleic acid single linear unknown 238 CUUCCCUUAA CAAAU 15 15 base pairs nucleic acid single linear unknown 239 UUCCCUUAAC AAAUU 15 15 base pairs nucleic acid single linear unknown 240 AACAAAUUUA AGCUG 15 15 base pairs nucleic acid single linear unknown 241 ACAAAUUUAA GCUGU 15 15 base pairs nucleic acid single linear unknown 242 CAAAUUUAAG CUGUU 15 15 base pairs nucleic acid single linear unknown 243 AAGCUGUUUU ACCCA 15 15 base pairs nucleic acid single linear unknown 244 AGCUGUUUUA CCCAC 15 15 base pairs nucleic acid single linear unknown 245 GCUGUUUUAC CCACU 15 15 base pairs nucleic acid single linear unknown 246 CUGUUUUACC CACUA 15 15 base pairs nucleic acid single linear unknown 247 ACCCACUACC UCACC 15 15 base pairs nucleic acid single linear unknown 248 ACUACCUCAC CUUCU 15 15 base pairs nucleic acid single linear unknown 249 CUCACCUUCU UAAAA 15 15 base pairs nucleic acid single linear unknown 250 UCACCUUCUU AAAAA 15 15 base pairs nucleic acid single linear unknown 251 ACCUUCUUAA AAACC 15 15 base pairs nucleic acid single linear unknown 252 CCUUCUUAAA AACCU 15 15 base pairs nucleic acid single linear unknown 253 AAAACCUCUU UCAGA 15 15 base pairs nucleic acid single linear unknown 254 AACCUCUUUC AGAUU 15 15 base pairs nucleic acid single linear unknown 255 ACCUCUUUCA GAUUA 15 15 base pairs nucleic acid single linear unknown 256 CCUCUUUCAG AUUAA 15 15 base pairs nucleic acid single linear unknown 257 UUCAGAUUAA GCUGA 15 15 base pairs nucleic acid single linear unknown 258 UCAGAUUAAG CUGAA 15 15 base pairs nucleic acid single linear unknown 259 GAACAGUUAC AAGAU 15 15 base pairs nucleic acid single linear unknown 260 AACAGUUACA AGAUG 15 15 base pairs nucleic acid single linear unknown 261 CUGGCAUCCC UCUCC 15 15 base pairs nucleic acid single linear unknown 262 CAUCCCUCUC CUUUC 15 15 base pairs nucleic acid single linear unknown 263 UCCCUCUCCU UUCUC 15 15 base pairs nucleic acid single linear unknown 264 CUCUCCUUUC UCCCC 15 15 base pairs nucleic acid single linear unknown 265 UCUCCUUUCU CCCCA 15 15 base pairs nucleic acid single linear unknown 266 CUCCUUUCUC CCCAU 15 15 base pairs nucleic acid single linear unknown 267 CCUUUCUCCC CAUAU 15 15 base pairs nucleic acid single linear unknown 268 UCCCCAUAUG CAAUU 15 15 base pairs nucleic acid single linear unknown 269 AUGCAAUUUG CUUAA 15 15 base pairs nucleic acid single linear unknown 270 UGCAAUUUGC UUAAU 15 15 base pairs nucleic acid single linear unknown 271 AUUUGCUUAA UGUAA 15 15 base pairs nucleic acid single linear unknown 272 UUUGCUUAAU GUAAC 15 15 base pairs nucleic acid single linear unknown 273 UUAAUGUAAC CUCUU 15 15 base pairs nucleic acid single linear unknown 274 GUAACCUCUU CUUUU 15 15 base pairs nucleic acid single linear unknown 275 AACCUCUUCU UUUGC 15 15 base pairs nucleic acid single linear unknown 276 ACCUCUUCUU UUGCC 15 15 base pairs nucleic acid single linear unknown 277 CUCUUCUUUU GCCAU 15 15 base pairs nucleic acid single linear unknown 278 UCUUCUUUUG CCAUG 15 15 base pairs nucleic acid single linear unknown 279 CUUCUUUUGC CAUGU 15 15 base pairs nucleic acid single linear unknown 280 GCCAUGUUUC CAUUC 15 15 base pairs nucleic acid single linear unknown 281 CCAUGUUUCC AUUCU 15 15 base pairs nucleic acid single linear unknown 282 CAUGUUUCCA UUCUG 15 15 base pairs nucleic acid single linear unknown 283 UUUCCAUUCU GCCAU 15 15 base pairs nucleic acid single linear unknown 284 UUCCAUUCUG CCAUC 15 15 base pairs nucleic acid single linear unknown 285 CUGCCAUCUU GAAUU 15 15 base pairs nucleic acid single linear unknown 286 GCCAUCUUGA AUUGU 15 15 base pairs nucleic acid single linear unknown 287 CUUGAAUUGU CUUGU 15 15 base pairs nucleic acid single linear unknown 288 GAAUUGUCUU GUCAG 15 15 base pairs nucleic acid single linear unknown 289 AUUGUCUUGU CAGCC 15 15 base pairs nucleic acid single linear unknown 290 GUCUUGUCAG CCAAU 15 15 base pairs nucleic acid single linear unknown 291 AGCCAAUUCA UUAUC 15 15 base pairs nucleic acid single linear unknown 292 GCCAAUUCAU UAUCU 15 15 base pairs nucleic acid single linear unknown 293 AAUUCAUUAU CUAUU 15 15 base pairs nucleic acid single linear unknown 294 AUUCAUUAUC UAUUA 15 15 base pairs nucleic acid single linear unknown 295 UCAUUAUCUA UUAAA 15 15 base pairs nucleic acid single linear unknown 296 AUUAUCUAUU AAACA 15 15 base pairs nucleic acid single linear unknown 297 UAUCUAUUAA ACACU 15 15 base pairs nucleic acid single linear unknown 298 AUCUAUUAAA CACUA 15 15 base pairs nucleic acid single linear unknown 299 AAACACUAAU UUGAG 15 36 base pairs nucleic acid single linear unknown 300 CUUUACACUG AUGAGGCCGA AAGGCCGAAA GGGUUU 36 36 base pairs nucleic acid single linear unknown 301 GUUACUUCUG AUGAGGCCGA AAGGCCGAAA CAGAGG 36 36 base pairs nucleic acid single linear unknown 302 CUUCUGUCUG AUGAGGCCGA AAGGCCGAAA CUUUAC 36 36 base pairs nucleic acid single linear unknown 303 CCCUUCUCUG AUGAGGCCGA AAGGCCGAAA CUUCUG 36 36 base pairs nucleic acid single linear unknown 304 CCCCUUCCUG AUGAGGCCGA AAGGCCGAAA ACUUCU 36 36 base pairs nucleic acid single linear unknown 305 GAGAGGCCUG AUGAGGCCGA AAGGCCGAAA CAUUUC 36 36 base pairs nucleic acid single linear unknown 306 CUUCAGACUG AUGAGGCCGA AAGGCCGAAA GGCGAC 36 36 base pairs nucleic acid single linear unknown 307 AUCUUCACUG AUGAGGCCGA AAGGCCGAAA GAGGCG 36 36 base pairs nucleic acid single linear unknown 308 UUUGGGUCUG AUGAGGCCGA AAGGCCGAAA UCUUCA 36 36 base pairs nucleic acid single linear unknown 309 CUUUGGGCUG AUGAGGCCGA AAGGCCGAAA AUCUUC 36 36 base pairs nucleic acid single linear unknown 310 AAUGACACUG AUGAGGCCGA AAGGCCGAAA UCACUU 36 36 base pairs nucleic acid single linear unknown 311 CAAUGACCUG AUGAGGCCGA AAGGCCGAAA AUCACU 36 36 base pairs nucleic acid single linear unknown 312 AAGCAAUCUG AUGAGGCCGA AAGGCCGAAA CAAAUC 36 36 base pairs nucleic acid single linear unknown 313 AUAAAGCCUG AUGAGGCCGA AAGGCCGAAA UGACAA 36 36 base pairs nucleic acid single linear unknown 314 GUCUAUACUG AUGAGGCCGA AAGGCCGAAA GCAAUG 36 36 base pairs nucleic acid single linear unknown 315 AGUCUAUCUG AUGAGGCCGA AAGGCCGAAA AGCAAU 36 36 base pairs nucleic acid single linear unknown 316 CAGUCUACUG AUGAGGCCGA AAGGCCGAAA AAGCAA 36 36 base pairs nucleic acid single linear unknown 317 UACAGUCCUG AUGAGGCCGA AAGGCCGAAA UAAAGC 36 36 base pairs nucleic acid single linear unknown 318 CUCUUCUCUG AUGAGGCCGA AAGGCCGAAA CAGUCU 36 36 base pairs nucleic acid single linear unknown 319 CUUCUGACUG AUGAGGCCGA AAGGCCGAAA UGUUCU 36 36 base pairs nucleic acid single linear unknown 320 CACUUCUCUG AUGAGGCCGA AAGGCCGAAA GAUGUU 36 36 base pairs nucleic acid single linear unknown 321 AGGGUAACUG AUGAGGCCGA AAGGCCGAAA CUCCAC 36 36 base pairs nucleic acid single linear unknown 322 UCAGGGUCUG AUGAGGCCGA AAGGCCGAAA GACUCC 36 36 base pairs nucleic acid single linear unknown 323 UUCAGGGCUG AUGAGGCCGA AAGGCCGAAA AGACUC 36 36 base pairs nucleic acid single linear unknown 324 AUCCUUUCUG AUGAGGCCGA AAGGCCGAAA UUUCAG 36 36 base pairs nucleic acid single linear unknown 325 UUCUUUACUG AUGAGGCCGA AAGGCCGAAA UCCUUU 36 36 base pairs nucleic acid single linear unknown 326 UUUCUUUCUG AUGAGGCCGA AAGGCCGAAA AUCCUU 36 36 base pairs nucleic acid single linear unknown 327 UUUUCUUCUG AUGAGGCCGA AAGGCCGAAA AAUCCU 36 36 base pairs nucleic acid single linear unknown 328 GAAGAAACUG AUGAGGCCGA AAGGCCGAAA UUCCAC 36 36 base pairs nucleic acid single linear unknown 329 UGAAGAACUG AUGAGGCCGA AAGGCCGAAA AUUCCA 36 36 base pairs nucleic acid single linear unknown 330 CUGAAGACUG AUGAGGCCGA AAGGCCGAAA AAUUCC 36 36 base pairs nucleic acid single linear unknown 331 GCUGAAGCUG AUGAGGCCGA AAGGCCGAAA AAAUUC 36 36 base pairs nucleic acid single linear unknown 332 UGCUGAACUG AUGAGGCCGA AAGGCCGAAA AAAAUU 36 36 base pairs nucleic acid single linear unknown 333 CUUGCUGCUG AUGAGGCCGA AAGGCCGAAA GAAAAA 36 36 base pairs nucleic acid single linear unknown 334 GCUUGCUCUG AUGAGGCCGA AAGGCCGAAA AGAAAA 36 36 base pairs nucleic acid single linear unknown 335 GUGGAUUCUG AUGAGGCCGA AAGGCCGAAA GUUUCA 36 36 base pairs nucleic acid single linear unknown 336 GGUUGUGCUG AUGAGGCCGA AAGGCCGAAA UUUAGU 36 36 base pairs nucleic acid single linear unknown 337 GUCUCCACUG AUGAGGCCGA AAGGCCGAAA GGUUGU 36 36 base pairs nucleic acid single linear unknown 338 GGUCUCCCUG AUGAGGCCGA AAGGCCGAAA AGGUUG 36 36 base pairs nucleic acid single linear unknown 339 GAGAUUGCUG AUGAGGCCGA AAGGCCGAAA GGGUGU 36 36 base pairs nucleic acid single linear unknown 340 ACACAGACUG AUGAGGCCGA AAGGCCGAAA UUGGAG 36 36 base pairs nucleic acid single linear unknown 341 ACACACACUG AUGAGGCCGA AAGGCCGAAA GAUUGG 36 36 base pairs nucleic acid single linear unknown 342 UUUACAACUG AUGAGGCCGA AAGGCCGAAA CACACA 36 36 base pairs nucleic acid single linear unknown 343 GUUUACACUG AUGAGGCCGA AAGGCCGAAA ACACAC 36 36 base pairs nucleic acid single linear unknown 344 UGUUUACCUG AUGAGGCCGA AAGGCCGAAA AACACA 36 36 base pairs nucleic acid single linear unknown 345 UGAUGUUCUG AUGAGGCCGA AAGGCCGAAA CAAAAC 36 36 base pairs nucleic acid single linear unknown 346 CUCCAGUCUG AUGAGGCCGA AAGGCCGAAA UGUUUA 36 36 base pairs nucleic acid single linear unknown 347 CGUAGAACUG AUGAGGCCGA AAGGCCGAAA CCCUCC 36 36 base pairs nucleic acid single linear unknown 348 CACGUAGCUG AUGAGGCCGA AAGGCCGAAA GACCCU 36 36 base pairs nucleic acid single linear unknown 349 UCACGUACUG AUGAGGCCGA AAGGCCGAAA AGACCC 36 36 base pairs nucleic acid single linear unknown 350 GCUCACGCUG AUGAGGCCGA AAGGCCGAAA GAAGAC 36 36 base pairs nucleic acid single linear unknown 351 ACAAUCCCUG AUGAGGCCGA AAGGCCGAAA UUGCUC 36 36 base pairs nucleic acid single linear unknown 352 UGAUGACCUG AUGAGGCCGA AAGGCCGAAA UCCAAU 36 36 base pairs nucleic acid single linear unknown 353 GGCUGAUCUG AUGAGGCCGA AAGGCCGAAA CAAUCC 36 36 base pairs nucleic acid single linear unknown 354 CAGGGCUCUG AUGAGGCCGA AAGGCCGAAA UGACAA 36 36 base pairs nucleic acid single linear unknown 355 GGUGCAACUG AUGAGGCCGA AAGGCCGAAA CAGGCA 36 36 base pairs nucleic acid single linear unknown 356 AGGUGCACUG AUGAGGCCGA AAGGCCGAAA ACAGGC 36 36 base pairs nucleic acid single linear unknown 357 CAGGUGCCUG AUGAGGCCGA AAGGCCGAAA AACAGG 36 36 base pairs nucleic acid single linear unknown 358 CAAGUAACUG AUGAGGCCGA AAGGCCGAAA CCAGGG 36 36 base pairs nucleic acid single linear unknown 359 CCCAAGUCUG AUGAGGCCGA AAGGCCGAAA GACCAG 36 36 base pairs nucleic acid single linear unknown 360 ACCCAAGCUG AUGAGGCCGA AAGGCCGAAA AGACCA 36 36 base pairs nucleic acid single linear unknown 361 UGGACCCCUG AUGAGGCCGA AAGGCCGAAA GUAAGA 36 36 base pairs nucleic acid single linear unknown 362 CAAUUUGCUG AUGAGGCCGA AAGGCCGAAA CCCAAG 36 36 base pairs nucleic acid single linear unknown 363 AGCCAACCUG AUGAGGCCGA AAGGCCGAAA UUUGGA 36 36 base pairs nucleic acid single linear unknown 364 GAAAGCCCUG AUGAGGCCGA AAGGCCGAAA CAAUUU 36 36 base pairs nucleic acid single linear unknown 365 AAAGUGACUG AUGAGGCCGA AAGGCCGAAA GCCAAC 36 36 base pairs nucleic acid single linear unknown 366 AAAAGUGCUG AUGAGGCCGA AAGGCCGAAA AGCCAA 36 36 base pairs nucleic acid single linear unknown 367 CAAAAGUCUG AUGAGGCCGA AAGGCCGAAA AAGCCA 36 36 base pairs nucleic acid single linear unknown 368 GGGUCAACUG AUGAGGCCGA AAGGCCGAAA GUGAAA 36 36 base pairs nucleic acid single linear unknown 369 AGGGUCACUG AUGAGGCCGA AAGGCCGAAA AGUGAA 36 36 base pairs nucleic acid single linear unknown 370 UAGGGUCCUG AUGAGGCCGA AAGGCCGAAA AAGUGA 36 36 base pairs nucleic acid single linear unknown 371 AGAUGCUCUG AUGAGGCCGA AAGGCCGAAA GGGUCA 36 36 base pairs nucleic acid single linear unknown 372 GGCUUCACUG AUGAGGCCGA AAGGCCGAAA UGCUUA 36 36 base pairs nucleic acid single linear unknown 373 GGAUGGUCUG AUGAGGCCGA AAGGCCGAAA UGUUCC 36 36 base pairs nucleic acid single linear unknown 374 ACACUUGCUG AUGAGGCCGA AAGGCCGAAA UGGUGA 36 36 base pairs nucleic acid single linear unknown 375 AGGUAUGCUG AUGAGGCCGA AAGGCCGAAA CACUUG 36 36 base pairs nucleic acid single linear unknown 376 AUUGAGGCUG AUGAGGCCGA AAGGCCGAAA UGGACA 36 36 base pairs nucleic acid single linear unknown 377 AGAAAUUCUG AUGAGGCCGA AAGGCCGAAA GGUAUG 36 36 base pairs nucleic acid single linear unknown 378 UGAAAGACUG AUGAGGCCGA AAGGCCGAAA UUGAGG 36 36 base pairs nucleic acid single linear unknown 379 CUGAAAGCUG AUGAGGCCGA AAGGCCGAAA AUUGAG 36 36 base pairs nucleic acid single linear unknown 380 GCUGAAACUG AUGAGGCCGA AAGGCCGAAA AAUUGA 36 36 base pairs nucleic acid single linear unknown 381 GAGCUGACUG AUGAGGCCGA AAGGCCGAAA GAAAUU 36 36 base pairs nucleic acid single linear unknown 382 AGAGCUGCUG AUGAGGCCGA AAGGCCGAAA AGAAAU 36 36 base pairs nucleic acid single linear unknown 383 AAGAGCUCUG AUGAGGCCGA AAGGCCGAAA AAGAAA 36 36 base pairs nucleic acid single linear unknown 384 GCACCAACUG AUGAGGCCGA AAGGCCGAAA GCUGAA 36 36 base pairs nucleic acid single linear unknown 385 CAGCACCCUG AUGAGGCCGA AAGGCCGAAA GAGCUG 36 36 base pairs nucleic acid single linear unknown 386 UGAGAAACUG AUGAGGCCGA AAGGCCGAAA CCAGCC 36 36 base pairs nucleic acid single linear unknown 387 AGUGAGACUG AUGAGGCCGA AAGGCCGAAA GACCAG 36 36 base pairs nucleic acid single linear unknown 388 AAGUGAGCUG AUGAGGCCGA AAGGCCGAAA AGACCA 36 36 base pairs nucleic acid single linear unknown 389 GAAGUGACUG AUGAGGCCGA AAGGCCGAAA AAGACC 36 36 base pairs nucleic acid single linear unknown 390 CAGAAGUCUG AUGAGGCCGA AAGGCCGAAA GAAAGA 36 36 base pairs nucleic acid single linear unknown 391 UGAACAGCUG AUGAGGCCGA AAGGCCGAAA GUGAGA 36 36 base pairs nucleic acid single linear unknown 392 CUGAACACUG AUGAGGCCGA AAGGCCGAAA AGUGAG 36 36 base pairs nucleic acid single linear unknown 393 ACACCUGCUG AUGAGGCCGA AAGGCCGAAA CAGAAG 36 36 base pairs nucleic acid single linear unknown 394 AACACCUCUG AUGAGGCCGA AAGGCCGAAA ACAGAA 36 36 base pairs nucleic acid single linear unknown 395 CGUGGAUCUG AUGAGGCCGA AAGGCCGAAA CACCUG 36 36 base pairs nucleic acid single linear unknown 396 ACGUGGACUG AUGAGGCCGA AAGGCCGAAA ACACCU 36 36 base pairs nucleic acid single linear unknown 397 UCACGUGCUG AUGAGGCCGA AAGGCCGAAA UAACAC 36 36 base pairs nucleic acid single linear unknown 398 ACCACAGCUG AUGAGGCCGA AAGGCCGAAA CAGCGU 36 36 base pairs nucleic acid single linear unknown 399 ACAUUGUCUG AUGAGGCCGA AAGGCCGAAA CCACAG 36 36 base pairs nucleic acid single linear unknown 400 CAACAGACUG AUGAGGCCGA AAGGCCGAAA CAUUGU 36 36 base pairs nucleic acid single linear unknown 401 UCAACAGCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 402 UUCAACACUG AUGAGGCCGA AAGGCCGAAA AACAUU 36 36 base pairs nucleic acid single linear unknown 403 GCUCUUCCUG AUGAGGCCGA AAGGCCGAAA CAGAAA 36 36 base pairs nucleic acid single linear unknown 404 UAGAUGCCUG AUGAGGCCGA AAGGCCGAAA GUUUGU 36 36 base pairs nucleic acid single linear unknown 405 GCCAGUACUG AUGAGGCCGA AAGGCCGAAA UGCGAG 36 36 base pairs nucleic acid single linear unknown 406 UUGCCAGCUG AUGAGGCCGA AAGGCCGAAA GAUGCG 36 36 base pairs nucleic acid single linear unknown 407 GACAUCACUG AUGAGGCCGA AAGGCCGAAA GUCAGC 36 36 base pairs nucleic acid single linear unknown 408 GUCCCCACUG AUGAGGCCGA AAGGCCGAAA CAUCAU 36 36 base pairs nucleic acid single linear unknown 409 GGCCAUACUG AUGAGGCCGA AAGGCCGAAA UUCAUG 36 36 base pairs nucleic acid single linear unknown 410 CGGGCCACUG AUGAGGCCGA AAGGCCGAAA UAUUCA 36 36 base pairs nucleic acid single linear unknown 411 GUUCUUGCUG AUGAGGCCGA AAGGCCGAAA CUCGGG 36 36 base pairs nucleic acid single linear unknown 412 UAUCAAACUG AUGAGGCCGA AAGGCCGAAA UGGUCC 36 36 base pairs nucleic acid single linear unknown 413 GAUAUCACUG AUGAGGCCGA AAGGCCGAAA GAUGGU 36 36 base pairs nucleic acid single linear unknown 414 UGAUAUCCUG AUGAGGCCGA AAGGCCGAAA AGAUGG 36 36 base pairs nucleic acid single linear unknown 415 UUAGUGACUG AUGAGGCCGA AAGGCCGAAA UCAAAG 36 36 base pairs nucleic acid single linear unknown 416 UAUUAGUCUG AUGAGGCCGA AAGGCCGAAA UAUCAA 36 36 base pairs nucleic acid single linear unknown 417 AGGUUAUCUG AUGAGGCCGA AAGGCCGAAA GUGAUA 36 36 base pairs nucleic acid single linear unknown 418 GAGAGGUCUG AUGAGGCCGA AAGGCCGAAA UUAGUG 36 36 base pairs nucleic acid single linear unknown 419 CAAUGGACUG AUGAGGCCGA AAGGCCGAAA GGUUAU 36 36 base pairs nucleic acid single linear unknown 420 CACAAUGCUG AUGAGGCCGA AAGGCCGAAA GAGGUU 36 36 base pairs nucleic acid single linear unknown 421 GGAUCACCUG AUGAGGCCGA AAGGCCGAAA UGGAGA 36 36 base pairs nucleic acid single linear unknown 422 GAGCCAGCUG AUGAGGCCGA AAGGCCGAAA UCACAA 36 36 base pairs nucleic acid single linear unknown 423 GGGCGCACUG AUGAGGCCGA AAGGCCGAAA GCCAGG 36 36 base pairs nucleic acid single linear unknown 424 CUCGUCACUG AUGAGGCCGA AAGGCCGAAA UGGGCG 36 36 base pairs nucleic acid single linear unknown 425 ACACUCGCUG AUGAGGCCGA AAGGCCGAAA UGUGCC 36 36 base pairs nucleic acid single linear unknown 426 UCAGAACCUG AUGAGGCCGA AAGGCCGAAA CACACU 36 36 base pairs nucleic acid single linear unknown 427 ACUUCAGCUG AUGAGGCCGA AAGGCCGAAA CAACAC 36 36 base pairs nucleic acid single linear unknown 428 UACUUCACUG AUGAGGCCGA AAGGCCGAAA ACAACA 36 36 base pairs nucleic acid single linear unknown 429 UUUUUCACUG AUGAGGCCGA AAGGCCGAAA CUUCAG 36 36 base pairs nucleic acid single linear unknown 430 CGCUUGACUG AUGAGGCCGA AAGGCCGAAA GCGUCU 36 36 base pairs nucleic acid single linear unknown 431 CCGCUUGCUG AUGAGGCCGA AAGGCCGAAA AGCGUC 36 36 base pairs nucleic acid single linear unknown 432 CCCGCUUCUG AUGAGGCCGA AAGGCCGAAA AAGCGU 36 36 base pairs nucleic acid single linear unknown 433 GACUGAUCUG AUGAGGCCGA AAGGCCGAAA CGUCAC 36 36 base pairs nucleic acid single linear unknown 434 UGACUGACUG AUGAGGCCGA AAGGCCGAAA ACGUCA 36 36 base pairs nucleic acid single linear unknown 435 UUUGACUCUG AUGAGGCCGA AAGGCCGAAA UAACGU 36 36 base pairs nucleic acid single linear unknown 436 CAGCUUUCUG AUGAGGCCGA AAGGCCGAAA CUGAUA 36 36 base pairs nucleic acid single linear unknown 437 UGUAGGGCUG AUGAGGCCGA AAGGCCGAAA GUCAGC 36 36 base pairs nucleic acid single linear unknown 438 GUGUAGGCUG AUGAGGCCGA AAGGCCGAAA AGUCAG 36 36 base pairs nucleic acid single linear unknown 439 CUAGGUGCUG AUGAGGCCGA AAGGCCGAAA GGGAAG 36 36 base pairs nucleic acid single linear unknown 440 GAUAUACCUG AUGAGGCCGA AAGGCCGAAA GGUGUA 36 36 base pairs nucleic acid single linear unknown 441 UCAGAUACUG AUGAGGCCGA AAGGCCGAAA CUAGGU 36 36 base pairs nucleic acid single linear unknown 442 AGUCAGACUG AUGAGGCCGA AAGGCCGAAA UACUAG 36 36 base pairs nucleic acid single linear unknown 443 AAAGUCACUG AUGAGGCCGA AAGGCCGAAA UAUACU 36 36 base pairs nucleic acid single linear unknown 444 AAUUUCACUG AUGAGGCCGA AAGGCCGAAA GUCAGA 36 36 base pairs nucleic acid single linear unknown 445 GAAUUUCCUG AUGAGGCCGA AAGGCCGAAA AGUCAG 36 36 base pairs nucleic acid single linear unknown 446 AAGUUGGCUG AUGAGGCCGA AAGGCCGAAA UUUCAA 36 36 base pairs nucleic acid single linear unknown 447 GAAGUUGCUG AUGAGGCCGA AAGGCCGAAA AUUUCA 36 36 base pairs nucleic acid single linear unknown 448 AUAUUAGCUG AUGAGGCCGA AAGGCCGAAA GUUGGA 36 36 base pairs nucleic acid single linear unknown 449 AAUAUUACUG AUGAGGCCGA AAGGCCGAAA AGUUGG 36 36 base pairs nucleic acid single linear unknown 450 CUAAUAUCUG AUGAGGCCGA AAGGCCGAAA GAAGUU 36 36 base pairs nucleic acid single linear unknown 451 CUUCUAACUG AUGAGGCCGA AAGGCCGAAA UUAGAA 36 36 base pairs nucleic acid single linear unknown 452 UCCUUCUCUG AUGAGGCCGA AAGGCCGAAA UAUUAG 36 36 base pairs nucleic acid single linear unknown 453 AUCCUUCCUG AUGAGGCCGA AAGGCCGAAA AUAUUA 36 36 base pairs nucleic acid single linear unknown 454 AGCAAAUCUG AUGAGGCCGA AAGGCCGAAA UCCUUC 36 36 base pairs nucleic acid single linear unknown 455 UUGAGCACUG AUGAGGCCGA AAGGCCGAAA UUAUCC 36 36 base pairs nucleic acid single linear unknown 456 GUUGAGCCUG AUGAGGCCGA AAGGCCGAAA AUUAUC 36 36 base pairs nucleic acid single linear unknown 457 AGAGGUUCUG AUGAGGCCGA AAGGCCGAAA GCAAAU 36 36 base pairs nucleic acid single linear unknown 458 ACCUCCACUG AUGAGGCCGA AAGGCCGAAA GGUUGA 36 36 base pairs nucleic acid single linear unknown 459 UCUGGAACUG AUGAGGCCGA AAGGCCGAAA CCUCCA 36 36 base pairs nucleic acid single linear unknown 460 CUCUGGACUG AUGAGGCCGA AAGGCCGAAA ACCUCC 36 36 base pairs nucleic acid single linear unknown 461 GCUCUGGCUG AUGAGGCCGA AAGGCCGAAA AACCUC 36 36 base pairs nucleic acid single linear unknown 462 GGCUCUGCUG AUGAGGCCGA AAGGCCGAAA AAACCU 36 36 base pairs nucleic acid single linear unknown 463 GAGAGGUCUG AUGAGGCCGA AAGGCCGAAA GGCUCU 36 36 base pairs nucleic acid single linear unknown 464 ACCAGGACUG AUGAGGCCGA AAGGCCGAAA GGUGAG 36 36 base pairs nucleic acid single linear unknown 465 CAACCAGCUG AUGAGGCCGA AAGGCCGAAA GAGGUG 36 36 base pairs nucleic acid single linear unknown 466 AUUUUCCCUG AUGAGGCCGA AAGGCCGAAA CCAGGA 36 36 base pairs nucleic acid single linear unknown 467 GGCAUUUCUG AUGAGGCCGA AAGGCCGAAA UUCUUC 36 36 base pairs nucleic acid single linear unknown 468 UGGCAUUCUG AUGAGGCCGA AAGGCCGAAA AUUCUU 36 36 base pairs nucleic acid single linear unknown 469 UUGUGUUCUG AUGAGGCCGA AAGGCCGAAA UGGCAU 36 36 base pairs nucleic acid single linear unknown 470 CUUGGGACUG AUGAGGCCGA AAGGCCGAAA CUGUUG 36 36 base pairs nucleic acid single linear unknown 471 UCUUGGGCUG AUGAGGCCGA AAGGCCGAAA ACUGUU 36 36 base pairs nucleic acid single linear unknown 472 AUCUUGGCUG AUGAGGCCGA AAGGCCGAAA AACUGU 36 36 base pairs nucleic acid single linear unknown 473 GUUUCAGCUG AUGAGGCCGA AAGGCCGAAA UCUUGG 36 36 base pairs nucleic acid single linear unknown 474 CAGCAUACUG AUGAGGCCGA AAGGCCGAAA GCUCAG 36 36 base pairs nucleic acid single linear unknown 475 AACAGCACUG AUGAGGCCGA AAGGCCGAAA GAGCUC 36 36 base pairs nucleic acid single linear unknown 476 UGCUGCUCUG AUGAGGCCGA AAGGCCGAAA CAGCAU 36 36 base pairs nucleic acid single linear unknown 477 UUGCUGCCUG AUGAGGCCGA AAGGCCGAAA ACAGCA 36 36 base pairs nucleic acid single linear unknown 478 AUAUUGACUG AUGAGGCCGA AAGGCCGAAA UCCAGU 36 36 base pairs nucleic acid single linear unknown 479 CAUAUUGCUG AUGAGGCCGA AAGGCCGAAA AUCCAG 36 36 base pairs nucleic acid single linear unknown 480 UCAUAUUCUG AUGAGGCCGA AAGGCCGAAA AAUCCA 36 36 base pairs nucleic acid single linear unknown 481 GUUGUCACUG AUGAGGCCGA AAGGCCGAAA UUGAAA 36 36 base pairs nucleic acid single linear unknown 482 ACACAUGCUG AUGAGGCCGA AAGGCCGAAA GCUGUG 36 36 base pairs nucleic acid single linear unknown 483 GACACAUCUG AUGAGGCCGA AAGGCCGAAA AGCUGU 36 36 base pairs nucleic acid single linear unknown 484 UUGAUGACUG AUGAGGCCGA AAGGCCGAAA CACAUG 36 36 base pairs nucleic acid single linear unknown 485 ACUUGAUCUG AUGAGGCCGA AAGGCCGAAA GACACA 36 36 base pairs nucleic acid single linear unknown 486 CAUACUUCUG AUGAGGCCGA AAGGCCGAAA UGAGAC 36 36 base pairs nucleic acid single linear unknown 487 AUGUCCACUG AUGAGGCCGA AAGGCCGAAA CUUGAU 36 36 base pairs nucleic acid single linear unknown 488 ACUCUUACUG AUGAGGCCGA AAGGCCGAAA UGUCCA 36 36 base pairs nucleic acid single linear unknown 489 CACUCUUCUG AUGAGGCCGA AAGGCCGAAA AUGUCC 36 36 base pairs nucleic acid single linear unknown 490 UCACUCUCUG AUGAGGCCGA AAGGCCGAAA AAUGUC 36 36 base pairs nucleic acid single linear unknown 491 AAGGUCUCUG AUGAGGCCGA AAGGCCGAAA UUCACU 36 36 base pairs nucleic acid single linear unknown 492 CCAGUUGCUG AUGAGGCCGA AAGGCCGAAA GGUCUG 36 36 base pairs nucleic acid single linear unknown 493 UCCAGUUCUG AUGAGGCCGA AAGGCCGAAA AGGUCU 36 36 base pairs nucleic acid single linear unknown 494 UUGGUUGCUG AUGAGGCCGA AAGGCCGAAA UUCCAG 36 36 base pairs nucleic acid single linear unknown 495 UCAGGAACUG AUGAGGCCGA AAGGCCGAAA UGCUCU 36 36 base pairs nucleic acid single linear unknown 496 AUCAGGACUG AUGAGGCCGA AAGGCCGAAA AUGCUC 36 36 base pairs nucleic acid single linear unknown 497 UAUCAGGCUG AUGAGGCCGA AAGGCCGAAA AAUGCU 36 36 base pairs nucleic acid single linear unknown 498 UUAUCAGCUG AUGAGGCCGA AAGGCCGAAA AAAUGC 36 36 base pairs nucleic acid single linear unknown 499 AGCAGGUCUG AUGAGGCCGA AAGGCCGAAA UCAGGA 36 36 base pairs nucleic acid single linear unknown 500 AGGAUGGCUG AUGAGGCCGA AAGGCCGAAA GCAGGU 36 36 base pairs nucleic acid single linear unknown 501 GGCCCAGCUG AUGAGGCCGA AAGGCCGAAA UGGGAG 36 36 base pairs nucleic acid single linear unknown 502 UUAAGGUCUG AUGAGGCCGA AAGGCCGAAA UGGCCC 36 36 base pairs nucleic acid single linear unknown 503 AUUAAGGCUG AUGAGGCCGA AAGGCCGAAA AUGGCC 36 36 base pairs nucleic acid single linear unknown 504 UGAGAUUCUG AUGAGGCCGA AAGGCCGAAA GGUAAU 36 36 base pairs nucleic acid single linear unknown 505 CUGAGAUCUG AUGAGGCCGA AAGGCCGAAA AGGUAA 36 36 base pairs nucleic acid single linear unknown 506 UUACUGACUG AUGAGGCCGA AAGGCCGAAA UUAAGG 36 36 base pairs nucleic acid single linear unknown 507 AUUUACUCUG AUGAGGCCGA AAGGCCGAAA GAUUAA 36 36 base pairs nucleic acid single linear unknown 508 UUCCAUUCUG AUGAGGCCGA AAGGCCGAAA CUGAGA 36 36 base pairs nucleic acid single linear unknown 509 UCACAAACUG AUGAGGCCGA AAGGCCGAAA UUCCAU 36 36 base pairs nucleic acid single linear unknown 510 AUCACAACUG AUGAGGCCGA AAGGCCGAAA AUUCCA 36 36 base pairs nucleic acid single linear unknown 511 UAUCACACUG AUGAGGCCGA AAGGCCGAAA AAUUCC 36 36 base pairs nucleic acid single linear unknown 512 AUAUCACCUG AUGAGGCCGA AAGGCCGAAA AAAUUC 36 36 base pairs nucleic acid single linear unknown 513 GGCAGCACUG AUGAGGCCGA AAGGCCGAAA UCACAA 36 36 base pairs nucleic acid single linear unknown 514 AAAGCAGCUG AUGAGGCCGA AAGGCCGAAA GGUCAG 36 36 base pairs nucleic acid single linear unknown 515 UGGGGCACUG AUGAGGCCGA AAGGCCGAAA GCAGUA 36 36 base pairs nucleic acid single linear unknown 516 UUGGGGCCUG AUGAGGCCGA AAGGCCGAAA AGCAGU 36 36 base pairs nucleic acid single linear unknown 517 CCUUCUCCUG AUGAGGCCGA AAGGCCGAAA UCUCUC 36 36 base pairs nucleic acid single linear unknown 518 CAGGGCGCUG AUGAGGCCGA AAGGCCGAAA CACUUU 36 36 base pairs nucleic acid single linear unknown 519 ACUGUUACUG AUGAGGCCGA AAGGCCGAAA CAGGGC 36 36 base pairs nucleic acid single linear unknown 520 ACACUGUCUG AUGAGGCCGA AAGGCCGAAA UACAGG 36 36 base pairs nucleic acid single linear unknown 521 UUCUGCGCUG AUGAGGCCGA AAGGCCGAAA CACUGU 36 36 base pairs nucleic acid single linear unknown 522 ACCUUCACUG AUGAGGCCGA AAGGCCGAAA UCUUUU 36 36 base pairs nucleic acid single linear unknown 523 CGGAGGCCUG AUGAGGCCGA AAGGCCGAAA CCUUCA 36 36 base pairs nucleic acid single linear unknown 524 GAUGACGCUG AUGAGGCCGA AAGGCCGAAA GGCUAC 36 36 base pairs nucleic acid single linear unknown 525 AAGAGAUCUG AUGAGGCCGA AAGGCCGAAA CGGAGG 36 36 base pairs nucleic acid single linear unknown 526 CAGAAGACUG AUGAGGCCGA AAGGCCGAAA UGACGG 36 36 base pairs nucleic acid single linear unknown 527 CCCAGAACUG AUGAGGCCGA AAGGCCGAAA GAUGAC 36 36 base pairs nucleic acid single linear unknown 528 AUCCCAGCUG AUGAGGCCGA AAGGCCGAAA GAGAUG 36 36 base pairs nucleic acid single linear unknown 529 UAUCCCACUG AUGAGGCCGA AAGGCCGAAA AGAGAU 36 36 base pairs nucleic acid single linear unknown 530 AUCCAUGCUG AUGAGGCCGA AAGGCCGAAA UCCCAG 36 36 base pairs nucleic acid single linear unknown 531 UCCCCACCUG AUGAGGCCGA AAGGCCGAAA UCCAUG 36 36 base pairs nucleic acid single linear unknown 532 GCCUCAUCUG AUGAGGCCGA AAGGCCGAAA UCCCCA 36 36 base pairs nucleic acid single linear unknown 533 AGGGAAGCUG AUGAGGCCGA AAGGCCGAAA UGCCUC 36 36 base pairs nucleic acid single linear unknown 534 AAGGGAACUG AUGAGGCCGA AAGGCCGAAA AUGCCU 36 36 base pairs nucleic acid single linear unknown 535 UUAAGGGCUG AUGAGGCCGA AAGGCCGAAA GAAUGC 36 36 base pairs nucleic acid single linear unknown 536 GUUAAGGCUG AUGAGGCCGA AAGGCCGAAA AGAAUG 36 36 base pairs nucleic acid single linear unknown 537 AUUUGUUCUG AUGAGGCCGA AAGGCCGAAA GGGAAG 36 36 base pairs nucleic acid single linear unknown 538 AAUUUGUCUG AUGAGGCCGA AAGGCCGAAA AGGGAA 36 36 base pairs nucleic acid single linear unknown 539 CAGCUUACUG AUGAGGCCGA AAGGCCGAAA UUUGUU 36 36 base pairs nucleic acid single linear unknown 540 ACAGCUUCUG AUGAGGCCGA AAGGCCGAAA AUUUGU 36 36 base pairs nucleic acid single linear unknown 541 AACAGCUCUG AUGAGGCCGA AAGGCCGAAA AAUUUG 36 36 base pairs nucleic acid single linear unknown 542 UGGGUAACUG AUGAGGCCGA AAGGCCGAAA CAGCUU 36 36 base pairs nucleic acid single linear unknown 543 GUGGGUACUG AUGAGGCCGA AAGGCCGAAA ACAGCU 36 36 base pairs nucleic acid single linear unknown 544 AGUGGGUCUG AUGAGGCCGA AAGGCCGAAA AACAGC 36 36 base pairs nucleic acid single linear unknown 545 UAGUGGGCUG AUGAGGCCGA AAGGCCGAAA AAACAG 36 36 base pairs nucleic acid single linear unknown 546 GGUGAGGCUG AUGAGGCCGA AAGGCCGAAA GUGGGU 36 36 base pairs nucleic acid single linear unknown 547 AGAAGGUCUG AUGAGGCCGA AAGGCCGAAA GGUAGU 36 36 base pairs nucleic acid single linear unknown 548 UUUUAAGCUG AUGAGGCCGA AAGGCCGAAA GGUGAG 36 36 base pairs nucleic acid single linear unknown 549 UUUUUAACUG AUGAGGCCGA AAGGCCGAAA AGGUGA 36 36 base pairs nucleic acid single linear unknown 550 GGUUUUUCUG AUGAGGCCGA AAGGCCGAAA GAAGGU 36 36 base pairs nucleic acid single linear unknown 551 AGGUUUUCUG AUGAGGCCGA AAGGCCGAAA AGAAGG 36 36 base pairs nucleic acid single linear unknown 552 UCUGAAACUG AUGAGGCCGA AAGGCCGAAA GGUUUU 36 36 base pairs nucleic acid single linear unknown 553 AAUCUGACUG AUGAGGCCGA AAGGCCGAAA GAGGUU 36 36 base pairs nucleic acid single linear unknown 554 UAAUCUGCUG AUGAGGCCGA AAGGCCGAAA AGAGGU 36 36 base pairs nucleic acid single linear unknown 555 UUAAUCUCUG AUGAGGCCGA AAGGCCGAAA AAGAGG 36 36 base pairs nucleic acid single linear unknown 556 UCAGCUUCUG AUGAGGCCGA AAGGCCGAAA UCUGAA 36 36 base pairs nucleic acid single linear unknown 557 UUCAGCUCUG AUGAGGCCGA AAGGCCGAAA AUCUGA 36 36 base pairs nucleic acid single linear unknown 558 AUCUUGUCUG AUGAGGCCGA AAGGCCGAAA CUGUUC 36 36 base pairs nucleic acid single linear unknown 559 CAUCUUGCUG AUGAGGCCGA AAGGCCGAAA ACUGUU 36 36 base pairs nucleic acid single linear unknown 560 GGAGAGGCUG AUGAGGCCGA AAGGCCGAAA UGCCAG 36 36 base pairs nucleic acid single linear unknown 561 GAAAGGACUG AUGAGGCCGA AAGGCCGAAA GGGAUG 36 36 base pairs nucleic acid single linear unknown 562 GAGAAAGCUG AUGAGGCCGA AAGGCCGAAA GAGGGA 36 36 base pairs nucleic acid single linear unknown 563 GGGGAGACUG AUGAGGCCGA AAGGCCGAAA GGAGAG 36 36 base pairs nucleic acid single linear unknown 564 UGGGGAGCUG AUGAGGCCGA AAGGCCGAAA AGGAGA 36 36 base pairs nucleic acid single linear unknown 565 AUGGGGACUG AUGAGGCCGA AAGGCCGAAA AAGGAG 36 36 base pairs nucleic acid single linear unknown 566 AUAUGGGCUG AUGAGGCCGA AAGGCCGAAA GAAAGG 36 36 base pairs nucleic acid single linear unknown 567 AAUUGCACUG AUGAGGCCGA AAGGCCGAAA UGGGGA 36 36 base pairs nucleic acid single linear unknown 568 UUAAGCACUG AUGAGGCCGA AAGGCCGAAA UUGCAU 36 36 base pairs nucleic acid single linear unknown 569 AUUAAGCCUG AUGAGGCCGA AAGGCCGAAA AUUGCA 36 36 base pairs nucleic acid single linear unknown 570 UUACAUUCUG AUGAGGCCGA AAGGCCGAAA GCAAAU 36 36 base pairs nucleic acid single linear unknown 571 GUUACAUCUG AUGAGGCCGA AAGGCCGAAA AGCAAA 36 36 base pairs nucleic acid single linear unknown 572 AAGAGGUCUG AUGAGGCCGA AAGGCCGAAA CAUUAA 36 36 base pairs nucleic acid single linear unknown 573 AAAAGAACUG AUGAGGCCGA AAGGCCGAAA GGUUAC 36 36 base pairs nucleic acid single linear unknown 574 GCAAAAGCUG AUGAGGCCGA AAGGCCGAAA GAGGUU 36 36 base pairs nucleic acid single linear unknown 575 GGCAAAACUG AUGAGGCCGA AAGGCCGAAA AGAGGU 36 36 base pairs nucleic acid single linear unknown 576 AUGGCAACUG AUGAGGCCGA AAGGCCGAAA GAAGAG 36 36 base pairs nucleic acid single linear unknown 577 CAUGGCACUG AUGAGGCCGA AAGGCCGAAA AGAAGA 36 36 base pairs nucleic acid single linear unknown 578 ACAUGGCCUG AUGAGGCCGA AAGGCCGAAA AAGAAG 36 36 base pairs nucleic acid single linear unknown 579 GAAUGGACUG AUGAGGCCGA AAGGCCGAAA CAUGGC 36 36 base pairs nucleic acid single linear unknown 580 AGAAUGGCUG AUGAGGCCGA AAGGCCGAAA ACAUGG 36 36 base pairs nucleic acid single linear unknown 581 CAGAAUGCUG AUGAGGCCGA AAGGCCGAAA AACAUG 36 36 base pairs nucleic acid single linear unknown 582 AUGGCAGCUG AUGAGGCCGA AAGGCCGAAA UGGAAA 36 36 base pairs nucleic acid single linear unknown 583 GAUGGCACUG AUGAGGCCGA AAGGCCGAAA AUGGAA 36 36 base pairs nucleic acid single linear unknown 584 AAUUCAACUG AUGAGGCCGA AAGGCCGAAA UGGCAG 36 36 base pairs nucleic acid single linear unknown 585 ACAAUUCCUG AUGAGGCCGA AAGGCCGAAA GAUGGC 36 36 base pairs nucleic acid single linear unknown 586 ACAAGACCUG AUGAGGCCGA AAGGCCGAAA UUCAAG 36 36 base pairs nucleic acid single linear unknown 587 CUGACAACUG AUGAGGCCGA AAGGCCGAAA CAAUUC 36 36 base pairs nucleic acid single linear unknown 588 GGCUGACCUG AUGAGGCCGA AAGGCCGAAA GACAAU 36 36 base pairs nucleic acid single linear unknown 589 AUUGGCUCUG AUGAGGCCGA AAGGCCGAAA CAAGAC 36 36 base pairs nucleic acid single linear unknown 590 GAUAAUGCUG AUGAGGCCGA AAGGCCGAAA UUGGCU 36 36 base pairs nucleic acid single linear unknown 591 AGAUAAUCUG AUGAGGCCGA AAGGCCGAAA AUUGGC 36 36 base pairs nucleic acid single linear unknown 592 AAUAGAUCUG AUGAGGCCGA AAGGCCGAAA UGAAUU 36 36 base pairs nucleic acid single linear unknown 593 UAAUAGACUG AUGAGGCCGA AAGGCCGAAA AUGAAU 36 36 base pairs nucleic acid single linear unknown 594 UUUAAUACUG AUGAGGCCGA AAGGCCGAAA UAAUGA 36 36 base pairs nucleic acid single linear unknown 595 UGUUUAACUG AUGAGGCCGA AAGGCCGAAA GAUAAU 36 36 base pairs nucleic acid single linear unknown 596 AGUGUUUCUG AUGAGGCCGA AAGGCCGAAA UAGAUA 36 36 base pairs nucleic acid single linear unknown 597 UAGUGUUCUG AUGAGGCCGA AAGGCCGAAA AUAGAU 36 36 base pairs nucleic acid single linear unknown 598 CUCAAAUCUG AUGAGGCCGA AAGGCCGAAA GUGUUU 36 15 base pairs nucleic acid single linear unknown 599 GAGUUUUAUA CCUCA 15 15 base pairs nucleic acid single linear unknown 600 GUUUUAUACC UCAAU 15 15 base pairs nucleic acid single linear unknown 601 GUUUUAUACC UCAAU 15 15 base pairs nucleic acid single linear unknown 602 UAUACCUCAA UAGAC 15 15 base pairs nucleic acid single linear unknown 603 CCUCAAUAGA CUCUU 15 15 base pairs nucleic acid single linear unknown 604 CCUCAAUAGA CUCUU 15 15 base pairs nucleic acid single linear unknown 605 CCUCAAUAGA CUCUU 15 15 base pairs nucleic acid single linear unknown 606 AUAGACUCUU ACUAG 15 15 base pairs nucleic acid single linear unknown 607 AGACUCUUAC UAGUU 15 15 base pairs nucleic acid single linear unknown 608 GACUCUUACU AGUUU 15 15 base pairs nucleic acid single linear unknown 609 UCUUACUAGU UUCUC 15 15 base pairs nucleic acid single linear unknown 610 UCUUACUAGU UUCUC 15 15 base pairs nucleic acid single linear unknown 611 UCUUACUAGU UUCUC 15 15 base pairs nucleic acid single linear unknown 612 UCUUACUAGU UUCUC 15 15 base pairs nucleic acid single linear unknown 613 CUAGUUUCUC UUUUU 15 15 base pairs nucleic acid single linear unknown 614 CUAGUUUCUC UUUUU 15 15 base pairs nucleic acid single linear unknown 615 CUAGUUUCUC UUUUU 15 15 base pairs nucleic acid single linear unknown 616 UCUCUUUUUC AGGUU 15 15 base pairs nucleic acid single linear unknown 617 CUCUUUUUCA GGUUG 15 15 base pairs nucleic acid single linear unknown 618 CUCUUUUUCA GGUUG 15 15 base pairs nucleic acid single linear unknown 619 UCUUUUUCAG GUUGU 15 15 base pairs nucleic acid single linear unknown 620 UGAAACUCAA CCUUC 15 15 base pairs nucleic acid single linear unknown 621 UGAAACUCAA CCUUC 15 15 base pairs nucleic acid single linear unknown 622 UCAACCUUCA AAGAC 15 15 base pairs nucleic acid single linear unknown 623 UCAACCUUCA AAGAC 15 15 base pairs nucleic acid single linear unknown 624 UCAACCUUCA AAGAC 15 15 base pairs nucleic acid single linear unknown 625 CAACCUUCAA AGACA 15 15 base pairs nucleic acid single linear unknown 626 AGACACUCUG UUCCA 15 15 base pairs nucleic acid single linear unknown 627 ACUCUGUUCC AUUUC 15 15 base pairs nucleic acid single linear unknown 628 CUCUGUUCCA UUUCU 15 15 base pairs nucleic acid single linear unknown 629 UUCCAUUUCU GUGGA 15 15 base pairs nucleic acid single linear unknown 630 GUGGACUAAU AGGAU 15 15 base pairs nucleic acid single linear unknown 631 GUGGACUAAU AGGAU 15 15 base pairs nucleic acid single linear unknown 632 GUGGACUAAU AGGAU 15 15 base pairs nucleic acid single linear unknown 633 GACUAAUAGG AUCAU 15 15 base pairs nucleic acid single linear unknown 634 GACUAAUAGG AUCAU 15 15 base pairs nucleic acid single linear unknown 635 AUAGGAUCAU CUUUA 15 15 base pairs nucleic acid single linear unknown 636 GGAUCAUCUU UAGCA 15 15 base pairs nucleic acid single linear unknown 637 GGAUCAUCUU UAGCA 15 15 base pairs nucleic acid single linear unknown 638 AUCAUCUUUA GCAUC 15 15 base pairs nucleic acid single linear unknown 639 UCAUCUUUAG CAUCU 15 15 base pairs nucleic acid single linear unknown 640 UCAUCUUUAG CAUCU 15 15 base pairs nucleic acid single linear unknown 641 CAUCUUUAGC AUCUG 15 15 base pairs nucleic acid single linear unknown 642 CAUCUUUAGC AUCUG 15 15 base pairs nucleic acid single linear unknown 643 AUGCCAUCCA GGCUU 15 15 base pairs nucleic acid single linear unknown 644 GCUUCUUUUU CUACA 15 15 base pairs nucleic acid single linear unknown 645 GCUUCUUUUU CUACA 15 15 base pairs nucleic acid single linear unknown 646 CUUCUUUUUC UACAU 15 15 base pairs nucleic acid single linear unknown 647 CUUCUUUUUC UACAU 15 15 base pairs nucleic acid single linear unknown 648 CUUCUUUUUC UACAU 15 15 base pairs nucleic acid single linear unknown 649 CUUCUUUUUC UACAU 15 15 base pairs nucleic acid single linear unknown 650 UUCUUUUUCU ACAUC 15 15 base pairs nucleic acid single linear unknown 651 UUCUUUUUCU ACAUC 15 15 base pairs nucleic acid single linear unknown 652 UUCUUUUUCU ACAUC 15 15 base pairs nucleic acid single linear unknown 653 UUUUUCUACA UCUCU 15 15 base pairs nucleic acid single linear unknown 654 UACAUCUCUG UUUCU 15 15 base pairs nucleic acid single linear unknown 655 UCUCGAUUUU UGUGA 15 15 base pairs nucleic acid single linear unknown 656 UCUCGAUUUU UGUGA 15 15 base pairs nucleic acid single linear unknown 657 UCUCGAUUUU UGUGA 15 15 base pairs nucleic acid single linear unknown 658 CUCGAUUUUU GUGAG 15 15 base pairs nucleic acid single linear unknown 659 UCGAUUUUUG UGAGC 15 15 base pairs nucleic acid single linear unknown 660 UCGAUUUUUG UGAGC 15 15 base pairs nucleic acid single linear unknown 661 UCGAUUUUUG UGAGC 15 15 base pairs nucleic acid single linear unknown 662 CGAUUUUUGU GAGCC 15 15 base pairs nucleic acid single linear unknown 663 CGAUUUUUGU GAGCC 15 15 base pairs nucleic acid single linear unknown 664 GCUCCAUUGG CUCUA 15 15 base pairs nucleic acid single linear unknown 665 AUUGGCUCUA GAUUC 15 15 base pairs nucleic acid single linear unknown 666 UCUAGAUUCC UGGCU 15 15 base pairs nucleic acid single linear unknown 667 CCUGGCUUUC CCCAU 15 15 base pairs nucleic acid single linear unknown 668 CUGGCUUUCC CCAUC 15 15 base pairs nucleic acid single linear unknown 669 CUGGCUUUCC CCAUC 15 15 base pairs nucleic acid single linear unknown 670 CUGGCUUUCC CCAUC 15 15 base pairs nucleic acid single linear unknown 671 UGGCUUUCCC CAUCA 15 15 base pairs nucleic acid single linear unknown 672 UGGCUUUCCC CAUCA 15 15 base pairs nucleic acid single linear unknown 673 UGGCUUUCCC CAUCA 15 15 base pairs nucleic acid single linear unknown 674 UGGCUUUCCC CAUCA 15 15 base pairs nucleic acid single linear unknown 675 UCCCCAUCAU GUUCU 15 15 base pairs nucleic acid single linear unknown 676 UCCCCAUCAU GUUCU 15 15 base pairs nucleic acid single linear unknown 677 UCAUGUUCUC CAAAG 15 15 base pairs nucleic acid single linear unknown 678 AUGUUCUCCA AAGCA 15 15 base pairs nucleic acid single linear unknown 679 AUGUUCUCCA AAGCA 15 15 base pairs nucleic acid single linear unknown 680 AUGUUCUCCA AAGCA 15 15 base pairs nucleic acid single linear unknown 681 AAAGCAUCUG AAGCU 15 15 base pairs nucleic acid single linear unknown 682 AAAGCAUCUG AAGCU 15 15 base pairs nucleic acid single linear unknown 683 AAAGCAUCUG AAGCU 15 15 base pairs nucleic acid single linear unknown 684 UGAAGCUAUG GCUUG 15 15 base pairs nucleic acid single linear unknown 685 CAAUUGUCAG UUGAU 15 15 base pairs nucleic acid single linear unknown 686 CACCACUCCU CAAGU 15 15 base pairs nucleic acid single linear unknown 687 CUCAAGUUUC CAUGU 15 15 base pairs nucleic acid single linear unknown 688 CUCAAGUUUC CAUGU 15 15 base pairs nucleic acid single linear unknown 689 UCAAGUUUCC AUGUC 15 15 base pairs nucleic acid single linear unknown 690 CAAGUUUCCA UGUCC 15 15 base pairs nucleic acid single linear unknown 691 CAAGUUUCCA UGUCC 15 15 base pairs nucleic acid single linear unknown 692 GGCUCAUUCU UCUCU 15 15 base pairs nucleic acid single linear unknown 693 GGCUCAUUCU UCUCU 15 15 base pairs nucleic acid single linear unknown 694 GCUCAUUCUU CUCUU 15 15 base pairs nucleic acid single linear unknown 695 GCUCAUUCUU CUCUU 15 15 base pairs nucleic acid single linear unknown 696 UCAUUCUUCU CUUUG 15 15 base pairs nucleic acid single linear unknown 697 CAUUCUUCUC UUUGU 15 15 base pairs nucleic acid single linear unknown 698 CAUUCUUCUC UUUGU 15 15 base pairs nucleic acid single linear unknown 699 UUCUUCUCUU UGUGC 15 15 base pairs nucleic acid single linear unknown 700 UUCUUCUCUU UGUGC 15 15 base pairs nucleic acid single linear unknown 701 CUUCUCUUUG UGCUG 15 15 base pairs nucleic acid single linear unknown 702 CUUCUCUUUG UGCUG 15 15 base pairs nucleic acid single linear unknown 703 UUCUCUUUGU GCUGC 15 15 base pairs nucleic acid single linear unknown 704 GCUGAUUCGU CUUUC 15 15 base pairs nucleic acid single linear unknown 705 UUCGUCUUUC ACAAG 15 15 base pairs nucleic acid single linear unknown 706 UUCGUCUUUC ACAAG 15 15 base pairs nucleic acid single linear unknown 707 UCGUCUUUCA CAAGU 15 15 base pairs nucleic acid single linear unknown 708 CGUCUUUCAC AAGUG 15 15 base pairs nucleic acid single linear unknown 709 CGUCUUUCAC AAGUG 15 15 base pairs nucleic acid single linear unknown 710 CAAGUGUCUU CAGAU 15 15 base pairs nucleic acid single linear unknown 711 GUGUCUUCAG AUGUU 15 15 base pairs nucleic acid single linear unknown 712 UCCAAGUCAG UGAAA 15 15 base pairs nucleic acid single linear unknown 713 GCUGCCUUGC CGUUA 15 15 base pairs nucleic acid single linear unknown 714 UUGCCGUUAC AACUC 15 15 base pairs nucleic acid single linear unknown 715 UUGCCGUUAC AACUC 15 15 base pairs nucleic acid single linear unknown 716 UACAACUCUC CUCAU 15 15 base pairs nucleic acid single linear unknown 717 CUCUCCUCAU GAAGA 15 15 base pairs nucleic acid single linear unknown 718 GAUGAGUCUG AAGAC 15 15 base pairs nucleic acid single linear unknown 719 ACCGAAUCUA CUGGC 15 15 base pairs nucleic acid single linear unknown 720 CGAAUCUACU GGCAA 15 15 base pairs nucleic acid single linear unknown 721 GUGCUGUCUG UCAUU 15 15 base pairs nucleic acid single linear unknown 722 GUGCUGUCUG UCAUU 15 15 base pairs nucleic acid single linear unknown 723 UGUCUGUCAU UGCUG 15 15 base pairs nucleic acid single linear unknown 724 GGAAACUAAA AGUGU 15 15 base pairs nucleic acid single linear unknown 725 GGAAACUAAA AGUGU 15 15 base pairs nucleic acid single linear unknown 726 CCCGAGUAUA AGAAC 15 15 base pairs nucleic acid single linear unknown 727 CGGACUUUAU AUGAC 15 15 base pairs nucleic acid single linear unknown 728 GGACUUUAUA UGACA 15 15 base pairs nucleic acid single linear unknown 729 ACUUUAUAUG ACAAC 15 15 base pairs nucleic acid single linear unknown 730 ACUACCUACU CUCUU 15 15 base pairs nucleic acid single linear unknown 731 ACUACCUACU CUCUU 15 15 base pairs nucleic acid single linear unknown 732 ACCUACUCUC UUAUC 15 15 base pairs nucleic acid single linear unknown 733 ACCUACUCUC UUAUC 15 15 base pairs nucleic acid single linear unknown 734 ACUCUCUUAU CAUCC 15 15 base pairs nucleic acid single linear unknown 735 CUCUCUUAUC AUCCU 15 15 base pairs nucleic acid single linear unknown 736 CUCUCUUAUC AUCCU 15 15 base pairs nucleic acid single linear unknown 737 CUCUCUUAUC AUCCU 15 15 base pairs nucleic acid single linear unknown 738 UUAUCAUCCU GGGCC 15 15 base pairs nucleic acid single linear unknown 739 UUAUCAUCCU GGGCC 15 15 base pairs nucleic acid single linear unknown 740 UGGUCCUUUC AGACC 15 15 base pairs nucleic acid single linear unknown 741 GUCCUUUCAG ACCGG 15 15 base pairs nucleic acid single linear unknown 742 GUCCUUUCAG ACCGG 15 15 base pairs nucleic acid single linear unknown 743 GGCACAUACA GCUGU 15 15 base pairs nucleic acid single linear unknown 744 GCUGUGUCGU UCAAA 15 15 base pairs nucleic acid single linear unknown 745 GUGUCGUUCA AAAGA 15 15 base pairs nucleic acid single linear unknown 746 GUGUCGUUCA AAAGA 15 15 base pairs nucleic acid single linear unknown 747 UGUCGUUCAA AAGAA 15 15 base pairs nucleic acid single linear unknown 748 AUGAAGUUAA ACACU 15 15 base pairs nucleic acid single linear unknown 749 AAACACUUGG CUUUA 15 15 base pairs nucleic acid single linear unknown 750 AAACACUUGG CUUUA 15 15 base pairs nucleic acid single linear unknown 751 UUGGCUUUAG UAAAG 15 15 base pairs nucleic acid single linear unknown 752 UGGCUUUAGU AAAGU 15 15 base pairs nucleic acid single linear unknown 753 CUUUAGUAAA GUUGU 15 15 base pairs nucleic acid single linear unknown 754 GUAAAGUUGU CCAUC 15 15 base pairs nucleic acid single linear unknown 755 AAGUUGUCCA UCAAA 15 15 base pairs nucleic acid single linear unknown 756 UGUCCAUCAA AGCUG 15 15 base pairs nucleic acid single linear unknown 757 GCUGACUUCU CUACC 15 15 base pairs nucleic acid single linear unknown 758 GCUGACUUCU CUACC 15 15 base pairs nucleic acid single linear unknown 759 GCUGACUUCU CUACC 15 15 base pairs nucleic acid single linear unknown 760 CUGACUUCUC UACCC 15 15 base pairs nucleic acid single linear unknown 761 CUGACUUCUC UACCC 15 15 base pairs nucleic acid single linear unknown 762 GACUUCUCUA CCCCC 15 15 base pairs nucleic acid single linear unknown 763 GACUUCUCUA CCCCC 15 15 base pairs nucleic acid single linear unknown 764 CUUCUCUACC CCCAA 15 15 base pairs nucleic acid single linear unknown 765 CCAACAUAAC UGAGU 15 15 base pairs nucleic acid single linear unknown 766 CCAACAUAAC UGAGU 15 15 base pairs nucleic acid single linear unknown 767 AACCCAUCUG CAGAC 15 15 base pairs nucleic acid single linear unknown 768 AACCCAUCUG CAGAC 15 15 base pairs nucleic acid single linear unknown 769 AGACACUAAA AGGAU 15 15 base pairs nucleic acid single linear unknown 770 AGACACUAAA AGGAU 15 15 base pairs nucleic acid single linear unknown 771 AGACACUAAA AGGAU 15 15 base pairs nucleic acid single linear unknown 772 AAAGGAUUAC CUGCU 15 15 base pairs nucleic acid single linear unknown 773 AAAGGAUUAC CUGCU 15 15 base pairs nucleic acid single linear unknown 774 AAAGGAUUAC CUGCU 15 15 base pairs nucleic acid single linear unknown 775 ACCUGCUUUG CUUCC 15 15 base pairs nucleic acid single linear unknown 776 ACCUGCUUUG CUUCC 15 15 base pairs nucleic acid single linear unknown 777 CGGGGGUUUC CCAAA 15 15 base pairs nucleic acid single linear unknown 778 CGGGGGUUUC CCAAA 15 15 base pairs nucleic acid single linear unknown 779 CGGGGGUUUC CCAAA 15 15 base pairs nucleic acid single linear unknown 780 GGGGGUUUCC CAAAG 15 15 base pairs nucleic acid single linear unknown 781 GGGGGUUUCC CAAAG 15 15 base pairs nucleic acid single linear unknown 782 GGGGGUUUCC CAAAG 15 15 base pairs nucleic acid single linear unknown 783 GGGGUUUCCC AAAGC 15 15 base pairs nucleic acid single linear unknown 784 AAAGCCUCGC UUCUC 15 15 base pairs nucleic acid single linear unknown 785 AAAGCCUCGC UUCUC 15 15 base pairs nucleic acid single linear unknown 786 CUCGCUUCUC UUGGU 15 15 base pairs nucleic acid single linear unknown 787 CUCGCUUCUC UUGGU 15 15 base pairs nucleic acid single linear unknown 788 CGCUUCUCUU GGUUG 15 15 base pairs nucleic acid single linear unknown 789 UCUUGGUUGG AAAAU 15 15 base pairs nucleic acid single linear unknown 790 GAGAAUUACC UGGCA 15 15 base pairs nucleic acid single linear unknown 791 GAGAAUUACC UGGCA 15 15 base pairs nucleic acid single linear unknown 792 GAGAAUUACC UGGCA 15 15 base pairs nucleic acid single linear unknown 793 CUGGCAUCAA UACGA 15 15 base pairs nucleic acid single linear unknown 794 CUGGCAUCAA UACGA 15 15 base pairs nucleic acid single linear unknown 795 CAUCAAUACG ACAAU 15 15 base pairs nucleic acid single linear unknown 796 CAUCAAUACG ACAAU 15 15 base pairs nucleic acid single linear unknown 797 CGACAAUUUC CCAGG 15 15 base pairs nucleic acid single linear unknown 798 GACAAUUUCC CAGGA 15 15 base pairs nucleic acid single linear unknown 799 ACAAUUUCCC AGGAU 15 15 base pairs nucleic acid single linear unknown 800 CCAGGAUCCU GAAUC 15 15 base pairs nucleic acid single linear unknown 801 CCUGAAUCUG AAUUG 15 15 base pairs nucleic acid single linear unknown 802 CCUGAAUCUG AAUUG 15 15 base pairs nucleic acid single linear unknown 803 GAAUUGUACA CCAUU 15 15 base pairs nucleic acid single linear unknown 804 GCCAACUAGA UUUCA 15 15 base pairs nucleic acid single linear unknown 805 GCCAACUAGA UUUCA 15 15 base pairs nucleic acid single linear unknown 806 GCCAACUAGA UUUCA 15 15 base pairs nucleic acid single linear unknown 807 ACUAGAUUUC AAUAC 15 15 base pairs nucleic acid single linear unknown 808 ACUAGAUUUC AAUAC 15 15 base pairs nucleic acid single linear unknown 809 CUAGAUUUCA AUACG 15 15 base pairs nucleic acid single linear unknown 810 UAGAUUUCAA UACGA 15 15 base pairs nucleic acid single linear unknown 811 UACGACUCGC AACCA 15 15 base pairs nucleic acid single linear unknown 812 ACACCAUUAA GUGUC 15 15 base pairs nucleic acid single linear unknown 813 ACACCAUUAA GUGUC 15 15 base pairs nucleic acid single linear unknown 814 UAAGUGUCUC AUUAA 15 15 base pairs nucleic acid single linear unknown 815 UAAGUGUCUC AUUAA 15 15 base pairs nucleic acid single linear unknown 816 AGUGUCUCAU UAAAU 15 15 base pairs nucleic acid single linear unknown 817 GUCUCAUUAA AUAUG 15 15 base pairs nucleic acid single linear unknown 818 AUUAAAUAUG GAGAU 15 15 base pairs nucleic acid single linear unknown 819 AUUAAAUAUG GAGAU 15 15 base pairs nucleic acid single linear unknown 820 GAGGACUUCA CCUGG 15 15 base pairs nucleic acid single linear unknown 821 AGGACUUCAC CUGGG 15 15 base pairs nucleic acid single linear unknown 822 UGCUCUUUGG GGCAG 15 15 base pairs nucleic acid single linear unknown 823 CAGUCGUCGU CAUCG 15 15 base pairs nucleic acid single linear unknown 824 UCGUCGUCAU CGUUG 15 15 base pairs nucleic acid single linear unknown 825 UCAUCGUUGU CAUCA 15 15 base pairs nucleic acid single linear unknown 826 UCGUUGUCAU CAUCA 15 15 base pairs nucleic acid single linear unknown 827 UUGUCAUCAU CAAAU 15 15 base pairs nucleic acid single linear unknown 828 AAAUGCUUCU GUAAG 15 15 base pairs nucleic acid single linear unknown 829 AAAUGCUUCU GUAAG 15 15 base pairs nucleic acid single linear unknown 830 AAAUGCUUCU GUAAG 15 15 base pairs nucleic acid single linear unknown 831 AAAUGCUUCU GUAAG 15 15 base pairs nucleic acid single linear unknown 832 AAUGCUUCUG UAAGC 15 15 base pairs nucleic acid single linear unknown 833 AAGCUGUUUC AGAAG 15 15 base pairs nucleic acid single linear unknown 834 AAGCUGUUUC AGAAG 15 15 base pairs nucleic acid single linear unknown 835 AGCUGUUUCA GAAGA 15 15 base pairs nucleic acid single linear unknown 836 ACAGCCUUAC CUUCG 15 15 base pairs nucleic acid single linear unknown 837 ACAGCCUUAC CUUCG 15 15 base pairs nucleic acid single linear unknown 838 ACAGCCUUAC CUUCG 15 15 base pairs nucleic acid single linear unknown 839 CAGCCUUACC UUCGG 15 15 base pairs nucleic acid single linear unknown 840 CUUACCUUCG GGCCU 15 15 base pairs nucleic acid single linear unknown 841 UUACCUUCGG GCCUG 15 15 base pairs nucleic acid single linear unknown 842 UUACCUUCGG GCCUG 15 15 base pairs nucleic acid single linear unknown 843 GAAGCAUUAG CUGAA 15 15 base pairs nucleic acid single linear unknown 844 GAAGCAUUAG CUGAA 15 15 base pairs nucleic acid single linear unknown 845 AAGCAUUAGC UGAAC 15 15 base pairs nucleic acid single linear unknown 846 AGACCGUCUU CCUUU 15 15 base pairs nucleic acid single linear unknown 847 ACCGUCUUCC UUUAG 15 15 base pairs nucleic acid single linear unknown 848 CCGUCUUCCU UUAGU 15 15 base pairs nucleic acid single linear unknown 849 CUUCCUUUAG UUCUU 15 15 base pairs nucleic acid single linear unknown 850 UUCUUCUCUG UCCAU 15 15 base pairs nucleic acid single linear unknown 851 UCUCUGUCCA UGUGG 15 15 base pairs nucleic acid single linear unknown 852 UCUCUGUCCA UGUGG 15 15 base pairs nucleic acid single linear unknown 853 GUGGGAUACA UGGUA 15 15 base pairs nucleic acid single linear unknown 854 ACAUGGUAUU AUGUG 15 15 base pairs nucleic acid single linear unknown 855 AUGGUAUUAU GUGGC 15 15 base pairs nucleic acid single linear unknown 856 UGUGGCUCAU GAGGU 15 15 base pairs nucleic acid single linear unknown 857 UGUGGCUCAU GAGGU 15 15 base pairs nucleic acid single linear unknown 858 GUACAAUCUU UCUUU 15 15 base pairs nucleic acid single linear unknown 859 ACAAUCUUUC UUUCA 15 15 base pairs nucleic acid single linear unknown 860 ACAAUCUUUC UUUCA 15 15 base pairs nucleic acid single linear unknown 861 CAAUCUUUCU UUCAG 15 15 base pairs nucleic acid single linear unknown 862 AAUCUUUCUU UCAGC 15 15 base pairs nucleic acid single linear unknown 863 AAUCUUUCUU UCAGC 15 15 base pairs nucleic acid single linear unknown 864 AAUCUUUCUU UCAGC 15 15 base pairs nucleic acid single linear unknown 865 UCUUUCUUUC AGCAC 15 15 base pairs nucleic acid single linear unknown 866 CUUUCUUUCA GCACC 15 15 base pairs nucleic acid single linear unknown 867 CUGAUCUUUC GGACA 15 15 base pairs nucleic acid single linear unknown 868 ACAAGAUAGA GUUAA 15 15 base pairs nucleic acid single linear unknown 869 UGAGGAUUUC UUUCC 15 15 base pairs nucleic acid single linear unknown 870 AGGAUUUCUU UCCAU 15 15 base pairs nucleic acid single linear unknown 871 GAUUUCUUUC CAUCA 15 15 base pairs nucleic acid single linear unknown 872 UUUCUUUCCA UCAGG 15 15 base pairs nucleic acid single linear unknown 873 UUUCCAUCAG GAAGC 15 15 base pairs nucleic acid single linear unknown 874 UUUCCAUCAG GAAGC 15 15 base pairs nucleic acid single linear unknown 875 GGCAAGUUUG CUGGG 15 15 base pairs nucleic acid single linear unknown 876 CUUUGAUUGC UUGAU 15 15 base pairs nucleic acid single linear unknown 877 GUGGUAUAAG AAAAA 15 15 base pairs nucleic acid single linear unknown 878 GUGGUAUAAG AAAAA 15 15 base pairs nucleic acid single linear unknown 879 GCCUAGUCUU ACUGC 15 15 base pairs nucleic acid single linear unknown 880 CUAGUCUUAC UGCAA 15 15 base pairs nucleic acid single linear unknown 881 UGCAACUUGA UAUGU 15 15 base pairs nucleic acid single linear unknown 882 ACUUGAUAUG UCAUG 15 15 base pairs nucleic acid single linear unknown 883 ACUUGAUAUG UCAUG 15 15 base pairs nucleic acid single linear unknown 884 GUUUGGUUGG UGUCU 15 15 base pairs nucleic acid single linear unknown 885 UGCCCUUUUC UGAAG 15 15 base pairs nucleic acid single linear unknown 886 GCCCUUUUCU GAAGA 15 15 base pairs nucleic acid single linear unknown 887 CCCUUUUCUG AAGAG 15 15 base pairs nucleic acid single linear unknown 888 CCCUUUUCUG AAGAG 15 15 base pairs nucleic acid single linear unknown 889 CUAUGGUUGG GAUGU 15 15 base pairs nucleic acid single linear unknown 890 GGGAUGUAAA AACGG 15 15 base pairs nucleic acid single linear unknown 891 GGGAUGUAAA AACGG 15 15 base pairs nucleic acid single linear unknown 892 AUAAUAUAAA UAUUA 15 15 base pairs nucleic acid single linear unknown 893 UAUAAAUAUU AAAUA 15 15 base pairs nucleic acid single linear unknown 894 UAAAUAUUAA AUAAA 15 15 base pairs nucleic acid single linear unknown 895 AAAUAUUAAA UAAAA 15 15 base pairs nucleic acid single linear unknown 896 AAAUAUUAAA UAAAA 15 15 base pairs nucleic acid single linear unknown 897 AGAGUAUUGA GCAAA 15 36 base pairs nucleic acid single linear unknown 898 UGAGGUACUG AUGAGGCCGA AAGGCCGAAA AAACUC 36 36 base pairs nucleic acid single linear unknown 899 AUUGAGGCUG AUGAGGCCGA AAGGCCGAAA UAAAAC 36 36 base pairs nucleic acid single linear unknown 900 AUUGAGGCUG AUGAGGCCGA AAGGCCGAAA UAAAAC 36 36 base pairs nucleic acid single linear unknown 901 GUCUAUUCUG AUGAGGCCGA AAGGCCGAAA GGUAUA 36 36 base pairs nucleic acid single linear unknown 902 AAGAGUCCUG AUGAGGCCGA AAGGCCGAAA UUGAGG 36 36 base pairs nucleic acid single linear unknown 903 AAGAGUCCUG AUGAGGCCGA AAGGCCGAAA UUGAGG 36 36 base pairs nucleic acid single linear unknown 904 AAGAGUCCUG AUGAGGCCGA AAGGCCGAAA UUGAGG 36 36 base pairs nucleic acid single linear unknown 905 CUAGUAACUG AUGAGGCCGA AAGGCCGAAA GUCUAU 36 36 base pairs nucleic acid single linear unknown 906 AACUAGUCUG AUGAGGCCGA AAGGCCGAAA GAGUCU 36 36 base pairs nucleic acid single linear unknown 907 AAACUAGCUG AUGAGGCCGA AAGGCCGAAA AGAGUC 36 36 base pairs nucleic acid single linear unknown 908 GAGAAACCUG AUGAGGCCGA AAGGCCGAAA GUAAGA 36 36 base pairs nucleic acid single linear unknown 909 GAGAAACCUG AUGAGGCCGA AAGGCCGAAA GUAAGA 36 36 base pairs nucleic acid single linear unknown 910 GAGAAACCUG AUGAGGCCGA AAGGCCGAAA GUAAGA 36 36 base pairs nucleic acid single linear unknown 911 GAGAAACCUG AUGAGGCCGA AAGGCCGAAA GUAAGA 36 36 base pairs nucleic acid single linear unknown 912 AAAAAGACUG AUGAGGCCGA AAGGCCGAAA AACUAG 36 36 base pairs nucleic acid single linear unknown 913 AAAAAGACUG AUGAGGCCGA AAGGCCGAAA AACUAG 36 36 base pairs nucleic acid single linear unknown 914 AAAAAGACUG AUGAGGCCGA AAGGCCGAAA AACUAG 36 36 base pairs nucleic acid single linear unknown 915 AACCUGACUG AUGAGGCCGA AAGGCCGAAA AAGAGA 36 36 base pairs nucleic acid single linear unknown 916 CAACCUGCUG AUGAGGCCGA AAGGCCGAAA AAAGAG 36 36 base pairs nucleic acid single linear unknown 917 CAACCUGCUG AUGAGGCCGA AAGGCCGAAA AAAGAG 36 36 base pairs nucleic acid single linear unknown 918 ACAACCUCUG AUGAGGCCGA AAGGCCGAAA AAAAGA 36 36 base pairs nucleic acid single linear unknown 919 GAAGGUUCUG AUGAGGCCGA AAGGCCGAAA GUUUCA 36 36 base pairs nucleic acid single linear unknown 920 GAAGGUUCUG AUGAGGCCGA AAGGCCGAAA GUUUCA 36 36 base pairs nucleic acid single linear unknown 921 GUCUUUGCUG AUGAGGCCGA AAGGCCGAAA GGUUGA 36 36 base pairs nucleic acid single linear unknown 922 GUCUUUGCUG AUGAGGCCGA AAGGCCGAAA GGUUGA 36 36 base pairs nucleic acid single linear unknown 923 GUCUUUGCUG AUGAGGCCGA AAGGCCGAAA GGUUGA 36 36 base pairs nucleic acid single linear unknown 924 UGUCUUUCUG AUGAGGCCGA AAGGCCGAAA AGGUUG 36 36 base pairs nucleic acid single linear unknown 925 UGGAACACUG AUGAGGCCGA AAGGCCGAAA GUGUCU 36 36 base pairs nucleic acid single linear unknown 926 GAAAUGGCUG AUGAGGCCGA AAGGCCGAAA CAGAGU 36 36 base pairs nucleic acid single linear unknown 927 AGAAAUGCUG AUGAGGCCGA AAGGCCGAAA ACAGAG 36 36 base pairs nucleic acid single linear unknown 928 UCCACAGCUG AUGAGGCCGA AAGGCCGAAA AUGGAA 36 36 base pairs nucleic acid single linear unknown 929 AUCCUAUCUG AUGAGGCCGA AAGGCCGAAA GUCCAC 36 36 base pairs nucleic acid single linear unknown 930 AUCCUAUCUG AUGAGGCCGA AAGGCCGAAA GUCCAC 36 36 base pairs nucleic acid single linear unknown 931 AUCCUAUCUG AUGAGGCCGA AAGGCCGAAA GUCCAC 36 36 base pairs nucleic acid single linear unknown 932 AUGAUCCCUG AUGAGGCCGA AAGGCCGAAA UUAGUC 36 36 base pairs nucleic acid single linear unknown 933 AUGAUCCCUG AUGAGGCCGA AAGGCCGAAA UUAGUC 36 36 base pairs nucleic acid single linear unknown 934 UAAAGAUCUG AUGAGGCCGA AAGGCCGAAA UCCUAU 36 36 base pairs nucleic acid single linear unknown 935 UGCUAAACUG AUGAGGCCGA AAGGCCGAAA UGAUCC 36 36 base pairs nucleic acid single linear unknown 936 UGCUAAACUG AUGAGGCCGA AAGGCCGAAA UGAUCC 36 36 base pairs nucleic acid single linear unknown 937 GAUGCUACUG AUGAGGCCGA AAGGCCGAAA GAUGAU 36 36 base pairs nucleic acid single linear unknown 938 AGAUGCUCUG AUGAGGCCGA AAGGCCGAAA AGAUGA 36 36 base pairs nucleic acid single linear unknown 939 AGAUGCUCUG AUGAGGCCGA AAGGCCGAAA AGAUGA 36 36 base pairs nucleic acid single linear unknown 940 CAGAUGCCUG AUGAGGCCGA AAGGCCGAAA AAGAUG 36 36 base pairs nucleic acid single linear unknown 941 CAGAUGCCUG AUGAGGCCGA AAGGCCGAAA AAGAUG 36 36 base pairs nucleic acid single linear unknown 942 AAGCCUGCUG AUGAGGCCGA AAGGCCGAAA UGGCAU 36 36 base pairs nucleic acid single linear unknown 943 UGUAGAACUG AUGAGGCCGA AAGGCCGAAA AGAAGC 36 36 base pairs nucleic acid single linear unknown 944 UGUAGAACUG AUGAGGCCGA AAGGCCGAAA AGAAGC 36 36 base pairs nucleic acid single linear unknown 945 AUGUAGACUG AUGAGGCCGA AAGGCCGAAA AAGAAG 36 36 base pairs nucleic acid single linear unknown 946 AUGUAGACUG AUGAGGCCGA AAGGCCGAAA AAGAAG 36 36 base pairs nucleic acid single linear unknown 947 AUGUAGACUG AUGAGGCCGA AAGGCCGAAA AAGAAG 36 36 base pairs nucleic acid single linear unknown 948 AUGUAGACUG AUGAGGCCGA AAGGCCGAAA AAGAAG 36 36 base pairs nucleic acid single linear unknown 949 GAUGUAGCUG AUGAGGCCGA AAGGCCGAAA AAAGAA 36 36 base pairs nucleic acid single linear unknown 950 GAUGUAGCUG AUGAGGCCGA AAGGCCGAAA AAAGAA 36 36 base pairs nucleic acid single linear unknown 951 GAUGUAGCUG AUGAGGCCGA AAGGCCGAAA AAAGAA 36 36 base pairs nucleic acid single linear unknown 952 AGAGAUGCUG AUGAGGCCGA AAGGCCGAAA GAAAAA 36 36 base pairs nucleic acid single linear unknown 953 AGAAACACUG AUGAGGCCGA AAGGCCGAAA GAUGUA 36 36 base pairs nucleic acid single linear unknown 954 UCACAAACUG AUGAGGCCGA AAGGCCGAAA UCGAGA 36 36 base pairs nucleic acid single linear unknown 955 UCACAAACUG AUGAGGCCGA AAGGCCGAAA UCGAGA 36 36 base pairs nucleic acid single linear unknown 956 UCACAAACUG AUGAGGCCGA AAGGCCGAAA UCGAGA 36 36 base pairs nucleic acid single linear unknown 957 CUCACAACUG AUGAGGCCGA AAGGCCGAAA AUCGAG 36 36 base pairs nucleic acid single linear unknown 958 GCUCACACUG AUGAGGCCGA AAGGCCGAAA AAUCGA 36 36 base pairs nucleic acid single linear unknown 959 GCUCACACUG AUGAGGCCGA AAGGCCGAAA AAUCGA 36 36 base pairs nucleic acid single linear unknown 960 GCUCACACUG AUGAGGCCGA AAGGCCGAAA AAUCGA 36 36 base pairs nucleic acid single linear unknown 961 GGCUCACCUG AUGAGGCCGA AAGGCCGAAA AAAUCG 36 36 base pairs nucleic acid single linear unknown 962 GGCUCACCUG AUGAGGCCGA AAGGCCGAAA AAAUCG 36 36 base pairs nucleic acid single linear unknown 963 UAGAGCCCUG AUGAGGCCGA AAGGCCGAAA UGGAGC 36 36 base pairs nucleic acid single linear unknown 964 GAAUCUACUG AUGAGGCCGA AAGGCCGAAA GCCAAU 36 36 base pairs nucleic acid single linear unknown 965 AGCCAGGCUG AUGAGGCCGA AAGGCCGAAA UCUAGA 36 36 base pairs nucleic acid single linear unknown 966 AUGGGGACUG AUGAGGCCGA AAGGCCGAAA GCCAGG 36 36 base pairs nucleic acid single linear unknown 967 GAUGGGGCUG AUGAGGCCGA AAGGCCGAAA AGCCAG 36 36 base pairs nucleic acid single linear unknown 968 GAUGGGGCUG AUGAGGCCGA AAGGCCGAAA AGCCAG 36 36 base pairs nucleic acid single linear unknown 969 GAUGGGGCUG AUGAGGCCGA AAGGCCGAAA AGCCAG 36 36 base pairs nucleic acid single linear unknown 970 UGAUGGGCUG AUGAGGCCGA AAGGCCGAAA AAGCCA 36 36 base pairs nucleic acid single linear unknown 971 UGAUGGGCUG AUGAGGCCGA AAGGCCGAAA AAGCCA 36 36 base pairs nucleic acid single linear unknown 972 UGAUGGGCUG AUGAGGCCGA AAGGCCGAAA AAGCCA 36 36 base pairs nucleic acid single linear unknown 973 UGAUGGGCUG AUGAGGCCGA AAGGCCGAAA AAGCCA 36 36 base pairs nucleic acid single linear unknown 974 AGAACAUCUG AUGAGGCCGA AAGGCCGAAA UGGGGA 36 36 base pairs nucleic acid single linear unknown 975 AGAACAUCUG AUGAGGCCGA AAGGCCGAAA UGGGGA 36 36 base pairs nucleic acid single linear unknown 976 CUUUGGACUG AUGAGGCCGA AAGGCCGAAA ACAUGA 36 36 base pairs nucleic acid single linear unknown 977 UGCUUUGCUG AUGAGGCCGA AAGGCCGAAA GAACAU 36 36 base pairs nucleic acid single linear unknown 978 UGCUUUGCUG AUGAGGCCGA AAGGCCGAAA GAACAU 36 36 base pairs nucleic acid single linear unknown 979 UGCUUUGCUG AUGAGGCCGA AAGGCCGAAA GAACAU 36 36 base pairs nucleic acid single linear unknown 980 AGCUUCACUG AUGAGGCCGA AAGGCCGAAA UGCUUU 36 36 base pairs nucleic acid single linear unknown 981 AGCUUCACUG AUGAGGCCGA AAGGCCGAAA UGCUUU 36 36 base pairs nucleic acid single linear unknown 982 AGCUUCACUG AUGAGGCCGA AAGGCCGAAA UGCUUU 36 36 base pairs nucleic acid single linear unknown 983 CAAGCCACUG AUGAGGCCGA AAGGCCGAAA GCUUCA 36 36 base pairs nucleic acid single linear unknown 984 AUCAACUCUG AUGAGGCCGA AAGGCCGAAA CAAUUG 36 36 base pairs nucleic acid single linear unknown 985 ACUUGAGCUG AUGAGGCCGA AAGGCCGAAA GUGGUG 36 36 base pairs nucleic acid single linear unknown 986 ACAUGGACUG AUGAGGCCGA AAGGCCGAAA CUUGAG 36 36 base pairs nucleic acid single linear unknown 987 ACAUGGACUG AUGAGGCCGA AAGGCCGAAA CUUGAG 36 36 base pairs nucleic acid single linear unknown 988 GACAUGGCUG AUGAGGCCGA AAGGCCGAAA ACUUGA 36 36 base pairs nucleic acid single linear unknown 989 GGACAUGCUG AUGAGGCCGA AAGGCCGAAA AACUUG 36 36 base pairs nucleic acid single linear unknown 990 GGACAUGCUG AUGAGGCCGA AAGGCCGAAA AACUUG 36 36 base pairs nucleic acid single linear unknown 991 AGAGAAGCUG AUGAGGCCGA AAGGCCGAAA UGAGCC 36 36 base pairs nucleic acid single linear unknown 992 AGAGAAGCUG AUGAGGCCGA AAGGCCGAAA UGAGCC 36 36 base pairs nucleic acid single linear unknown 993 AAGAGAACUG AUGAGGCCGA AAGGCCGAAA AUGAGC 36 36 base pairs nucleic acid single linear unknown 994 AAGAGAACUG AUGAGGCCGA AAGGCCGAAA AUGAGC 36 36 base pairs nucleic acid single linear unknown 995 CAAAGAGCUG AUGAGGCCGA AAGGCCGAAA GAAUGA 36 36 base pairs nucleic acid single linear unknown 996 ACAAAGACUG AUGAGGCCGA AAGGCCGAAA AGAAUG 36 36 base pairs nucleic acid single linear unknown 997 ACAAAGACUG AUGAGGCCGA AAGGCCGAAA AGAAUG 36 36 base pairs nucleic acid single linear unknown 998 GCACAAACUG AUGAGGCCGA AAGGCCGAAA GAAGAA 36 36 base pairs nucleic acid single linear unknown 999 GCACAAACUG AUGAGGCCGA AAGGCCGAAA GAAGAA 36 36 base pairs nucleic acid single linear unknown 1000 CAGCACACUG AUGAGGCCGA AAGGCCGAAA GAGAAG 36 36 base pairs nucleic acid single linear unknown 1001 CAGCACACUG AUGAGGCCGA AAGGCCGAAA GAGAAG 36 36 base pairs nucleic acid single linear unknown 1002 GCAGCACCUG AUGAGGCCGA AAGGCCGAAA AGAGAA 36 36 base pairs nucleic acid single linear unknown 1003 GAAAGACCUG AUGAGGCCGA AAGGCCGAAA AUCAGC 36 36 base pairs nucleic acid single linear unknown 1004 CUUGUGACUG AUGAGGCCGA AAGGCCGAAA GACGAA 36 36 base pairs nucleic acid single linear unknown 1005 CUUGUGACUG AUGAGGCCGA AAGGCCGAAA GACGAA 36 36 base pairs nucleic acid single linear unknown 1006 ACUUGUGCUG AUGAGGCCGA AAGGCCGAAA AGACGA 36 36 base pairs nucleic acid single linear unknown 1007 CACUUGUCUG AUGAGGCCGA AAGGCCGAAA AAGACG 36 36 base pairs nucleic acid single linear unknown 1008 CACUUGUCUG AUGAGGCCGA AAGGCCGAAA AAGACG 36 36 base pairs nucleic acid single linear unknown 1009 AUCUGAACUG AUGAGGCCGA AAGGCCGAAA CACUUG 36 36 base pairs nucleic acid single linear unknown 1010 AACAUCUCUG AUGAGGCCGA AAGGCCGAAA AGACAC 36 36 base pairs nucleic acid single linear unknown 1011 UUUCACUCUG AUGAGGCCGA AAGGCCGAAA CUUGGA 36 36 base pairs nucleic acid single linear unknown 1012 UAACGGCCUG AUGAGGCCGA AAGGCCGAAA GGCAGC 36 36 base pairs nucleic acid single linear unknown 1013 GAGUUGUCUG AUGAGGCCGA AAGGCCGAAA CGGCAA 36 36 base pairs nucleic acid single linear unknown 1014 GAGUUGUCUG AUGAGGCCGA AAGGCCGAAA CGGCAA 36 36 base pairs nucleic acid single linear unknown 1015 AUGAGGACUG AUGAGGCCGA AAGGCCGAAA GUUGUA 36 36 base pairs nucleic acid single linear unknown 1016 UCUUCAUCUG AUGAGGCCGA AAGGCCGAAA GGAGAG 36 36 base pairs nucleic acid single linear unknown 1017 GUCUUCACUG AUGAGGCCGA AAGGCCGAAA CUCAUC 36 36 base pairs nucleic acid single linear unknown 1018 GCCAGUACUG AUGAGGCCGA AAGGCCGAAA UUCGGU 36 36 base pairs nucleic acid single linear unknown 1019 UUGCCAGCUG AUGAGGCCGA AAGGCCGAAA GAUUCG 36 36 base pairs nucleic acid single linear unknown 1020 AAUGACACUG AUGAGGCCGA AAGGCCGAAA CAGCAC 36 36 base pairs nucleic acid single linear unknown 1021 AAUGACACUG AUGAGGCCGA AAGGCCGAAA CAGCAC 36 36 base pairs nucleic acid single linear unknown 1022 CAGCAAUCUG AUGAGGCCGA AAGGCCGAAA CAGACA 36 36 base pairs nucleic acid single linear unknown 1023 ACACUUUCUG AUGAGGCCGA AAGGCCGAAA GUUUCC 36 36 base pairs nucleic acid single linear unknown 1024 ACACUUUCUG AUGAGGCCGA AAGGCCGAAA GUUUCC 36 36 base pairs nucleic acid single linear unknown 1025 GUUCUUACUG AUGAGGCCGA AAGGCCGAAA CUCGGG 36 36 base pairs nucleic acid single linear unknown 1026 GUCAUAUCUG AUGAGGCCGA AAGGCCGAAA AGUCCG 36 36 base pairs nucleic acid single linear unknown 1027 UGUCAUACUG AUGAGGCCGA AAGGCCGAAA AAGUCC 36 36 base pairs nucleic acid single linear unknown 1028 GUUGUCACUG AUGAGGCCGA AAGGCCGAAA UAAAGU 36 36 base pairs nucleic acid single linear unknown 1029 AAGAGAGCUG AUGAGGCCGA AAGGCCGAAA GGUAGU 36 36 base pairs nucleic acid single linear unknown 1030 AAGAGAGCUG AUGAGGCCGA AAGGCCGAAA GGUAGU 36 36 base pairs nucleic acid single linear unknown 1031 GAUAAGACUG AUGAGGCCGA AAGGCCGAAA GUAGGU 36 36 base pairs nucleic acid single linear unknown 1032 GAUAAGACUG AUGAGGCCGA AAGGCCGAAA GUAGGU 36 36 base pairs nucleic acid single linear unknown 1033 GGAUGAUCUG AUGAGGCCGA AAGGCCGAAA GAGAGU 36 36 base pairs nucleic acid single linear unknown 1034 AGGAUGACUG AUGAGGCCGA AAGGCCGAAA AGAGAG 36 36 base pairs nucleic acid single linear unknown 1035 AGGAUGACUG AUGAGGCCGA AAGGCCGAAA AGAGAG 36 36 base pairs nucleic acid single linear unknown 1036 AGGAUGACUG AUGAGGCCGA AAGGCCGAAA AGAGAG 36 36 base pairs nucleic acid single linear unknown 1037 GGCCCAGCUG AUGAGGCCGA AAGGCCGAAA UGAUAA 36 36 base pairs nucleic acid single linear unknown 1038 GGCCCAGCUG AUGAGGCCGA AAGGCCGAAA UGAUAA 36 36 base pairs nucleic acid single linear unknown 1039 GGUCUGACUG AUGAGGCCGA AAGGCCGAAA GGACCA 36 36 base pairs nucleic acid single linear unknown 1040 CCGGUCUCUG AUGAGGCCGA AAGGCCGAAA AAGGAC 36 36 base pairs nucleic acid single linear unknown 1041 CCGGUCUCUG AUGAGGCCGA AAGGCCGAAA AAGGAC 36 36 base pairs nucleic acid single linear unknown 1042 ACAGCUGCUG AUGAGGCCGA AAGGCCGAAA UGUGCC 36 36 base pairs nucleic acid single linear unknown 1043 UUUGAACCUG AUGAGGCCGA AAGGCCGAAA CACAGC 36 36 base pairs nucleic acid single linear unknown 1044 UCUUUUGCUG AUGAGGCCGA AAGGCCGAAA CGACAC 36 36 base pairs nucleic acid single linear unknown 1045 UCUUUUGCUG AUGAGGCCGA AAGGCCGAAA CGACAC 36 36 base pairs nucleic acid single linear unknown 1046 UUCUUUUCUG AUGAGGCCGA AAGGCCGAAA ACGACA 36 36 base pairs nucleic acid single linear unknown 1047 AGUGUUUCUG AUGAGGCCGA AAGGCCGAAA CUUCAU 36 36 base pairs nucleic acid single linear unknown 1048 UAAAGCCCUG AUGAGGCCGA AAGGCCGAAA GUGUUU 36 36 base pairs nucleic acid single linear unknown 1049 UAAAGCCCUG AUGAGGCCGA AAGGCCGAAA GUGUUU 36 36 base pairs nucleic acid single linear unknown 1050 CUUUACUCUG AUGAGGCCGA AAGGCCGAAA AGCCAA 36 36 base pairs nucleic acid single linear unknown 1051 ACUUUACCUG AUGAGGCCGA AAGGCCGAAA AAGCCA 36 36 base pairs nucleic acid single linear unknown 1052 ACAACUUCUG AUGAGGCCGA AAGGCCGAAA CUAAAG 36 36 base pairs nucleic acid single linear unknown 1053 GAUGGACCUG AUGAGGCCGA AAGGCCGAAA CUUUAC 36 36 base pairs nucleic acid single linear unknown 1054 UUUGAUGCUG AUGAGGCCGA AAGGCCGAAA CAACUU 36 36 base pairs nucleic acid single linear unknown 1055 CAGCUUUCUG AUGAGGCCGA AAGGCCGAAA UGGACA 36 36 base pairs nucleic acid single linear unknown 1056 GGUAGAGCUG AUGAGGCCGA AAGGCCGAAA GUCAGC 36 36 base pairs nucleic acid single linear unknown 1057 GGUAGAGCUG AUGAGGCCGA AAGGCCGAAA GUCAGC 36 36 base pairs nucleic acid single linear unknown 1058 GGUAGAGCUG AUGAGGCCGA AAGGCCGAAA GUCAGC 36 36 base pairs nucleic acid single linear unknown 1059 GGGUAGACUG AUGAGGCCGA AAGGCCGAAA AGUCAG 36 36 base pairs nucleic acid single linear unknown 1060 GGGUAGACUG AUGAGGCCGA AAGGCCGAAA AGUCAG 36 36 base pairs nucleic acid single linear unknown 1061 GGGGGUACUG AUGAGGCCGA AAGGCCGAAA GAAGUC 36 36 base pairs nucleic acid single linear unknown 1062 GGGGGUACUG AUGAGGCCGA AAGGCCGAAA GAAGUC 36 36 base pairs nucleic acid single linear unknown 1063 UUGGGGGCUG AUGAGGCCGA AAGGCCGAAA GAGAAG 36 36 base pairs nucleic acid single linear unknown 1064 ACUCAGUCUG AUGAGGCCGA AAGGCCGAAA UGUUGG 36 36 base pairs nucleic acid single linear unknown 1065 ACUCAGUCUG AUGAGGCCGA AAGGCCGAAA UGUUGG 36 36 base pairs nucleic acid single linear unknown 1066 GUCUGCACUG AUGAGGCCGA AAGGCCGAAA UGGGUU 36 36 base pairs nucleic acid single linear unknown 1067 GUCUGCACUG AUGAGGCCGA AAGGCCGAAA UGGGUU 36 36 base pairs nucleic acid single linear unknown 1068 AUCCUUUCUG AUGAGGCCGA AAGGCCGAAA GUGUCU 36 36 base pairs nucleic acid single linear unknown 1069 AUCCUUUCUG AUGAGGCCGA AAGGCCGAAA GUGUCU 36 36 base pairs nucleic acid single linear unknown 1070 AUCCUUUCUG AUGAGGCCGA AAGGCCGAAA GUGUCU 36 36 base pairs nucleic acid single linear unknown 1071 AGCAGGUCUG AUGAGGCCGA AAGGCCGAAA UCCUUU 36 36 base pairs nucleic acid single linear unknown 1072 AGCAGGUCUG AUGAGGCCGA AAGGCCGAAA UCCUUU 36 36 base pairs nucleic acid single linear unknown 1073 AGCAGGUCUG AUGAGGCCGA AAGGCCGAAA UCCUUU 36 36 base pairs nucleic acid single linear unknown 1074 GGAAGCACUG AUGAGGCCGA AAGGCCGAAA GCAGGU 36 36 base pairs nucleic acid single linear unknown 1075 GGAAGCACUG AUGAGGCCGA AAGGCCGAAA GCAGGU 36 36 base pairs nucleic acid single linear unknown 1076 UUUGGGACUG AUGAGGCCGA AAGGCCGAAA CCCCCG 36 36 base pairs nucleic acid single linear unknown 1077 UUUGGGACUG AUGAGGCCGA AAGGCCGAAA CCCCCG 36 36 base pairs nucleic acid single linear unknown 1078 UUUGGGACUG AUGAGGCCGA AAGGCCGAAA CCCCCG 36 36 base pairs nucleic acid single linear unknown 1079 CUUUGGGCUG AUGAGGCCGA AAGGCCGAAA ACCCCC 36 36 base pairs nucleic acid single linear unknown 1080 CUUUGGGCUG AUGAGGCCGA AAGGCCGAAA ACCCCC 36 36 base pairs nucleic acid single linear unknown 1081 CUUUGGGCUG AUGAGGCCGA AAGGCCGAAA ACCCCC 36 36 base pairs nucleic acid single linear unknown 1082 GCUUUGGCUG AUGAGGCCGA AAGGCCGAAA AACCCC 36 36 base pairs nucleic acid single linear unknown 1083 GAGAAGCCUG AUGAGGCCGA AAGGCCGAAA GGCUUU 36 36 base pairs nucleic acid single linear unknown 1084 GAGAAGCCUG AUGAGGCCGA AAGGCCGAAA GGCUUU 36 36 base pairs nucleic acid single linear unknown 1085 ACCAAGACUG AUGAGGCCGA AAGGCCGAAA AGCGAG 36 36 base pairs nucleic acid single linear unknown 1086 ACCAAGACUG AUGAGGCCGA AAGGCCGAAA AGCGAG 36 36 base pairs nucleic acid single linear unknown 1087 CAACCAACUG AUGAGGCCGA AAGGCCGAAA GAAGCG 36 36 base pairs nucleic acid single linear unknown 1088 AUUUUCCCUG AUGAGGCCGA AAGGCCGAAA CCAAGA 36 36 base pairs nucleic acid single linear unknown 1089 UGCCAGGCUG AUGAGGCCGA AAGGCCGAAA AUUCUC 36 36 base pairs nucleic acid single linear unknown 1090 UGCCAGGCUG AUGAGGCCGA AAGGCCGAAA AUUCUC 36 36 base pairs nucleic acid single linear unknown 1091 UGCCAGGCUG AUGAGGCCGA AAGGCCGAAA AUUCUC 36 36 base pairs nucleic acid single linear unknown 1092 UCGUAUUCUG AUGAGGCCGA AAGGCCGAAA UGCCAG 36 36 base pairs nucleic acid single linear unknown 1093 UCGUAUUCUG AUGAGGCCGA AAGGCCGAAA UGCCAG 36 36 base pairs nucleic acid single linear unknown 1094 AUUGUCGCUG AUGAGGCCGA AAGGCCGAAA UUGAUG 36 36 base pairs nucleic acid single linear unknown 1095 AUUGUCGCUG AUGAGGCCGA AAGGCCGAAA UUGAUG 36 36 base pairs nucleic acid single linear unknown 1096 CCUGGGACUG AUGAGGCCGA AAGGCCGAAA UUGUCG 36 36 base pairs nucleic acid single linear unknown 1097 UCCUGGGCUG AUGAGGCCGA AAGGCCGAAA AUUGUC 36 36 base pairs nucleic acid single linear unknown 1098 AUCCUGGCUG AUGAGGCCGA AAGGCCGAAA AAUUGU 36 36 base pairs nucleic acid single linear unknown 1099 GAUUCAGCUG AUGAGGCCGA AAGGCCGAAA UCCUGG 36 36 base pairs nucleic acid single linear unknown 1100 CAAUUCACUG AUGAGGCCGA AAGGCCGAAA UUCAGG 36 36 base pairs nucleic acid single linear unknown 1101 CAAUUCACUG AUGAGGCCGA AAGGCCGAAA UUCAGG 36 36 base pairs nucleic acid single linear unknown 1102 AAUGGUGCUG AUGAGGCCGA AAGGCCGAAA CAAUUC 36 36 base pairs nucleic acid single linear unknown 1103 UGAAAUCCUG AUGAGGCCGA AAGGCCGAAA GUUGGC 36 36 base pairs nucleic acid single linear unknown 1104 UGAAAUCCUG AUGAGGCCGA AAGGCCGAAA GUUGGC 36 36 base pairs nucleic acid single linear unknown 1105 UGAAAUCCUG AUGAGGCCGA AAGGCCGAAA GUUGGC 36 36 base pairs nucleic acid single linear unknown 1106 GUAUUGACUG AUGAGGCCGA AAGGCCGAAA UCUAGU 36 36 base pairs nucleic acid single linear unknown 1107 GUAUUGACUG AUGAGGCCGA AAGGCCGAAA UCUAGU 36 36 base pairs nucleic acid single linear unknown 1108 CGUAUUGCUG AUGAGGCCGA AAGGCCGAAA AUCUAG 36 36 base pairs nucleic acid single linear unknown 1109 UCGUAUUCUG AUGAGGCCGA AAGGCCGAAA AAUCUA 36 36 base pairs nucleic acid single linear unknown 1110 UGGUUGCCUG AUGAGGCCGA AAGGCCGAAA GUCGUA 36 36 base pairs nucleic acid single linear unknown 1111 GACACUUCUG AUGAGGCCGA AAGGCCGAAA UGGUGU 36 36 base pairs nucleic acid single linear unknown 1112 GACACUUCUG AUGAGGCCGA AAGGCCGAAA UGGUGU 36 36 base pairs nucleic acid single linear unknown 1113 UUAAUGACUG AUGAGGCCGA AAGGCCGAAA CACUUA 36 36 base pairs nucleic acid single linear unknown 1114 UUAAUGACUG AUGAGGCCGA AAGGCCGAAA CACUUA 36 36 base pairs nucleic acid single linear unknown 1115 AUUUAAUCUG AUGAGGCCGA AAGGCCGAAA GACACU 36 36 base pairs nucleic acid single linear unknown 1116 CAUAUUUCUG AUGAGGCCGA AAGGCCGAAA UGAGAC 36 36 base pairs nucleic acid single linear unknown 1117 AUCUCCACUG AUGAGGCCGA AAGGCCGAAA UUUAAU 36 36 base pairs nucleic acid single linear unknown 1118 AUCUCCACUG AUGAGGCCGA AAGGCCGAAA UUUAAU 36 36 base pairs nucleic acid single linear unknown 1119 CCAGGUGCUG AUGAGGCCGA AAGGCCGAAA GUCCUC 36 36 base pairs nucleic acid single linear unknown 1120 CCCAGGUCUG AUGAGGCCGA AAGGCCGAAA AGUCCU 36 36 base pairs nucleic acid single linear unknown 1121 CUGCCCCCUG AUGAGGCCGA AAGGCCGAAA AGAGCA 36 36 base pairs nucleic acid single linear unknown 1122 CGAUGACCUG AUGAGGCCGA AAGGCCGAAA CGACUG 36 36 base pairs nucleic acid single linear unknown 1123 CAACGAUCUG AUGAGGCCGA AAGGCCGAAA CGACGA 36 36 base pairs nucleic acid single linear unknown 1124 UGAUGACCUG AUGAGGCCGA AAGGCCGAAA CGAUGA 36 36 base pairs nucleic acid single linear unknown 1125 UGAUGAUCUG AUGAGGCCGA AAGGCCGAAA CAACGA 36 36 base pairs nucleic acid single linear unknown 1126 AUUUGAUCUG AUGAGGCCGA AAGGCCGAAA UGACAA 36 36 base pairs nucleic acid single linear unknown 1127 CUUACAGCUG AUGAGGCCGA AAGGCCGAAA GCAUUU 36 36 base pairs nucleic acid single linear unknown 1128 CUUACAGCUG AUGAGGCCGA AAGGCCGAAA GCAUUU 36 36 base pairs nucleic acid single linear unknown 1129 CUUACAGCUG AUGAGGCCGA AAGGCCGAAA GCAUUU 36 36 base pairs nucleic acid single linear unknown 1130 CUUACAGCUG AUGAGGCCGA AAGGCCGAAA GCAUUU 36 36 base pairs nucleic acid single linear unknown 1131 GCUUACACUG AUGAGGCCGA AAGGCCGAAA AGCAUU 36 36 base pairs nucleic acid single linear unknown 1132 CUUCUGACUG AUGAGGCCGA AAGGCCGAAA CAGCUU 36 36 base pairs nucleic acid single linear unknown 1133 CUUCUGACUG AUGAGGCCGA AAGGCCGAAA CAGCUU 36 36 base pairs nucleic acid single linear unknown 1134 UCUUCUGCUG AUGAGGCCGA AAGGCCGAAA ACAGCU 36 36 base pairs nucleic acid single linear unknown 1135 CGAAGGUCUG AUGAGGCCGA AAGGCCGAAA GGCUGU 36 36 base pairs nucleic acid single linear unknown 1136 CGAAGGUCUG AUGAGGCCGA AAGGCCGAAA GGCUGU 36 36 base pairs nucleic acid single linear unknown 1137 CGAAGGUCUG AUGAGGCCGA AAGGCCGAAA GGCUGU 36 36 base pairs nucleic acid single linear unknown 1138 CCGAAGGCUG AUGAGGCCGA AAGGCCGAAA AGGCUG 36 36 base pairs nucleic acid single linear unknown 1139 AGGCCCGCUG AUGAGGCCGA AAGGCCGAAA GGUAAG 36 36 base pairs nucleic acid single linear unknown 1140 CAGGCCCCUG AUGAGGCCGA AAGGCCGAAA AGGUAA 36 36 base pairs nucleic acid single linear unknown 1141 CAGGCCCCUG AUGAGGCCGA AAGGCCGAAA AGGUAA 36 36 base pairs nucleic acid single linear unknown 1142 UUCAGCUCUG AUGAGGCCGA AAGGCCGAAA UGCUUC 36 36 base pairs nucleic acid single linear unknown 1143 UUCAGCUCUG AUGAGGCCGA AAGGCCGAAA UGCUUC 36 36 base pairs nucleic acid single linear unknown 1144 GUUCAGCCUG AUGAGGCCGA AAGGCCGAAA AUGCUU 36 36 base pairs nucleic acid single linear unknown 1145 AAAGGAACUG AUGAGGCCGA AAGGCCGAAA CGGUCU 36 36 base pairs nucleic acid single linear unknown 1146 CUAAAGGCUG AUGAGGCCGA AAGGCCGAAA GACGGU 36 36 base pairs nucleic acid single linear unknown 1147 ACUAAAGCUG AUGAGGCCGA AAGGCCGAAA AGACGG 36 36 base pairs nucleic acid single linear unknown 1148 AAGAACUCUG AUGAGGCCGA AAGGCCGAAA AGGAAG 36 36 base pairs nucleic acid single linear unknown 1149 AUGGACACUG AUGAGGCCGA AAGGCCGAAA GAAGAA 36 36 base pairs nucleic acid single linear unknown 1150 CCACAUGCUG AUGAGGCCGA AAGGCCGAAA CAGAGA 36 36 base pairs nucleic acid single linear unknown 1151 CCACAUGCUG AUGAGGCCGA AAGGCCGAAA CAGAGA 36 36 base pairs nucleic acid single linear unknown 1152 UACCAUGCUG AUGAGGCCGA AAGGCCGAAA UCCCAC 36 36 base pairs nucleic acid single linear unknown 1153 CACAUAACUG AUGAGGCCGA AAGGCCGAAA CCAUGU 36 36 base pairs nucleic acid single linear unknown 1154 GCCACAUCUG AUGAGGCCGA AAGGCCGAAA UACCAU 36 36 base pairs nucleic acid single linear unknown 1155 ACCUCAUCUG AUGAGGCCGA AAGGCCGAAA GCCACA 36 36 base pairs nucleic acid single linear unknown 1156 ACCUCAUCUG AUGAGGCCGA AAGGCCGAAA GCCACA 36 36 base pairs nucleic acid single linear unknown 1157 AAAGAAACUG AUGAGGCCGA AAGGCCGAAA UUGUAC 36 36 base pairs nucleic acid single linear unknown 1158 UGAAAGACUG AUGAGGCCGA AAGGCCGAAA GAUUGU 36 36 base pairs nucleic acid single linear unknown 1159 UGAAAGACUG AUGAGGCCGA AAGGCCGAAA GAUUGU 36 36 base pairs nucleic acid single linear unknown 1160 CUGAAAGCUG AUGAGGCCGA AAGGCCGAAA AGAUUG 36 36 base pairs nucleic acid single linear unknown 1161 GCUGAAACUG AUGAGGCCGA AAGGCCGAAA AAGAUU 36 36 base pairs nucleic acid single linear unknown 1162 GCUGAAACUG AUGAGGCCGA AAGGCCGAAA AAGAUU 36 36 base pairs nucleic acid single linear unknown 1163 GCUGAAACUG AUGAGGCCGA AAGGCCGAAA AAGAUU 36 36 base pairs nucleic acid single linear unknown 1164 GUGCUGACUG AUGAGGCCGA AAGGCCGAAA GAAAGA 36 36 base pairs nucleic acid single linear unknown 1165 GGUGCUGCUG AUGAGGCCGA AAGGCCGAAA AGAAAG 36 36 base pairs nucleic acid single linear unknown 1166 UGUCCGACUG AUGAGGCCGA AAGGCCGAAA GAUCAG 36 36 base pairs nucleic acid single linear unknown 1167 UUAACUCCUG AUGAGGCCGA AAGGCCGAAA UCUUGU 36 36 base pairs nucleic acid single linear unknown 1168 GGAAAGACUG AUGAGGCCGA AAGGCCGAAA UCCUCA 36 36 base pairs nucleic acid single linear unknown 1169 AUGGAAACUG AUGAGGCCGA AAGGCCGAAA AAUCCU 36 36 base pairs nucleic acid single linear unknown 1170 UGAUGGACUG AUGAGGCCGA AAGGCCGAAA GAAAUC 36 36 base pairs nucleic acid single linear unknown 1171 CCUGAUGCUG AUGAGGCCGA AAGGCCGAAA AAGAAA 36 36 base pairs nucleic acid single linear unknown 1172 GCUUCCUCUG AUGAGGCCGA AAGGCCGAAA UGGAAA 36 36 base pairs nucleic acid single linear unknown 1173 GCUUCCUCUG AUGAGGCCGA AAGGCCGAAA UGGAAA 36 36 base pairs nucleic acid single linear unknown 1174 CCCAGCACUG AUGAGGCCGA AAGGCCGAAA CUUGCC 36 36 base pairs nucleic acid single linear unknown 1175 AUCAAGCCUG AUGAGGCCGA AAGGCCGAAA UCAAAG 36 36 base pairs nucleic acid single linear unknown 1176 UUUUUCUCUG AUGAGGCCGA AAGGCCGAAA UACCAC 36 36 base pairs nucleic acid single linear unknown 1177 UUUUUCUCUG AUGAGGCCGA AAGGCCGAAA UACCAC 36 36 base pairs nucleic acid single linear unknown 1178 GCAGUAACUG AUGAGGCCGA AAGGCCGAAA CUAGGC 36 36 base pairs nucleic acid single linear unknown 1179 UUGCAGUCUG AUGAGGCCGA AAGGCCGAAA GACUAG 36 36 base pairs nucleic acid single linear unknown 1180 ACAUAUCCUG AUGAGGCCGA AAGGCCGAAA GUUGCA 36 36 base pairs nucleic acid single linear unknown 1181 CAUGACACUG AUGAGGCCGA AAGGCCGAAA UCAAGU 36 36 base pairs nucleic acid single linear unknown 1182 CAUGACACUG AUGAGGCCGA AAGGCCGAAA UCAAGU 36 36 base pairs nucleic acid single linear unknown 1183 AGACACCCUG AUGAGGCCGA AAGGCCGAAA CCAAAC 36 36 base pairs nucleic acid single linear unknown 1184 CUUCAGACUG AUGAGGCCGA AAGGCCGAAA AGGGCA 36 36 base pairs nucleic acid single linear unknown 1185 UCUUCAGCUG AUGAGGCCGA AAGGCCGAAA AAGGGC 36 36 base pairs nucleic acid single linear unknown 1186 CUCUUCACUG AUGAGGCCGA AAGGCCGAAA AAAGGG 36 36 base pairs nucleic acid single linear unknown 1187 CUCUUCACUG AUGAGGCCGA AAGGCCGAAA AAAGGG 36 36 base pairs nucleic acid single linear unknown 1188 ACAUCCCCUG AUGAGGCCGA AAGGCCGAAA CCAUAG 36 36 base pairs nucleic acid single linear unknown 1189 CCGUUUUCUG AUGAGGCCGA AAGGCCGAAA CAUCCC 36 36 base pairs nucleic acid single linear unknown 1190 CCGUUUUCUG AUGAGGCCGA AAGGCCGAAA CAUCCC 36 36 base pairs nucleic acid single linear unknown 1191 UAAUAUUCUG AUGAGGCCGA AAGGCCGAAA UAUUAU 36 36 base pairs nucleic acid single linear unknown 1192 UAUUUAACUG AUGAGGCCGA AAGGCCGAAA UUUAUA 36 36 base pairs nucleic acid single linear unknown 1193 UUUAUUUCUG AUGAGGCCGA AAGGCCGAAA UAUUUA 36 36 base pairs nucleic acid single linear unknown 1194 UUUUAUUCUG AUGAGGCCGA AAGGCCGAAA AUAUUU 36 36 base pairs nucleic acid single linear unknown 1195 UUUUAUUCUG AUGAGGCCGA AAGGCCGAAA AUAUUU 36 36 base pairs nucleic acid single linear unknown 1196 UUUGCUCCUG AUGAGGCCGA AAGGCCGAAA UACUCU 36 15 base pairs nucleic acid single linear unknown 1197 GAAAGCUUUG CUUCU 15 15 base pairs nucleic acid single linear unknown 1198 AAAGCUUUGC UUCUC 15 15 base pairs nucleic acid single linear unknown 1199 CUUUGCUUCU CUGCU 15 15 base pairs nucleic acid single linear unknown 1200 UUUGCUUCUC UGCUG 15 15 base pairs nucleic acid single linear unknown 1201 UGCUUCUCUG CUGCU 15 15 base pairs nucleic acid single linear unknown 1202 CUGCUGUAAC AGGGA 15 15 base pairs nucleic acid single linear unknown 1203 AGGGACUAGC ACAGA 15 15 base pairs nucleic acid single linear unknown 1204 GUGGGGUCAU UUCCA 15 15 base pairs nucleic acid single linear unknown 1205 GGGUCAUUUC CAGAU 15 15 base pairs nucleic acid single linear unknown 1206 GGUCAUUUCC AGAUA 15 15 base pairs nucleic acid single linear unknown 1207 GUCAUUUCCA GAUAU 15 15 base pairs nucleic acid single linear unknown 1208 UCCAGAUAUU AGGUC 15 15 base pairs nucleic acid single linear unknown 1209 CAGAUAUUAG GUCAC 15 15 base pairs nucleic acid single linear unknown 1210 AGAUAUUAGG UCACA 15 15 base pairs nucleic acid single linear unknown 1211 AUUAGGUCAC AGCAG 15 15 base pairs nucleic acid single linear unknown 1212 AAUGGAUCCC CAGUG 15 15 base pairs nucleic acid single linear unknown 1213 GUGCACUAUG GGACU 15 15 base pairs nucleic acid single linear unknown 1214 ACUGAGUAAC AUUCU 15 15 base pairs nucleic acid single linear unknown 1215 GUAACAUUCU CUUUG 15 15 base pairs nucleic acid single linear unknown 1216 UAACAUUCUC UUUGU 15 15 base pairs nucleic acid single linear unknown 1217 ACAUUCUCUU UGUGA 15 15 base pairs nucleic acid single linear unknown 1218 AUUCUCUUUG UGAUG 15 15 base pairs nucleic acid single linear unknown 1219 UUCUCUUUGU GAUGG 15 15 base pairs nucleic acid single linear unknown 1220 AUGGCCUUCC UGCUC 15 15 base pairs nucleic acid single linear unknown 1221 UGGCCUUCCU GCUCU 15 15 base pairs nucleic acid single linear unknown 1222 UCCUGCUCUC UGGUG 15 15 base pairs nucleic acid single linear unknown 1223 CUGCUCUCUG GUGCU 15 15 base pairs nucleic acid single linear unknown 1224 UGCUGCUCCU CUGAA 15 15 base pairs nucleic acid single linear unknown 1225 UGCUCCUCUG AAGAU 15 15 base pairs nucleic acid single linear unknown 1226 UGAAGAUUCA AGCUU 15 15 base pairs nucleic acid single linear unknown 1227 GAAGAUUCAA GCUUA 15 15 base pairs nucleic acid single linear unknown 1228 UCAAGCUUAU UUCAA 15 15 base pairs nucleic acid single linear unknown 1229 CAAGCUUAUU UCAAU 15 15 base pairs nucleic acid single linear unknown 1230 AGCUUAUUUC AAUGA 15 15 base pairs nucleic acid single linear unknown 1231 GCUUAUUUCA AUGAG 15 15 base pairs nucleic acid single linear unknown 1232 CUUAUUUCAA UGAGA 15 15 base pairs nucleic acid single linear unknown 1233 UGCCAAUUUG CAAAC 15 15 base pairs nucleic acid single linear unknown 1234 GCCAAUUUGC AAACU 15 15 base pairs nucleic acid single linear unknown 1235 GCAAACUCUC AAAAC 15 15 base pairs nucleic acid single linear unknown 1236 AAACUCUCAA AACCA 15 15 base pairs nucleic acid single linear unknown 1237 GUGAGCUAGU AGUAU 15 15 base pairs nucleic acid single linear unknown 1238 AGCUAGUAGU AUUUU 15 15 base pairs nucleic acid single linear unknown 1239 UAGUAGUAUU UUGGC 15 15 base pairs nucleic acid single linear unknown 1240 GUAGUAUUUU GGCAG 15 15 base pairs nucleic acid single linear unknown 1241 UAGUAUUUUG GCAGG 15 15 base pairs nucleic acid single linear unknown 1242 AGUAUUUUGG CAGGA 15 15 base pairs nucleic acid single linear unknown 1243 GAAAACUUGG UUCUG 15 15 base pairs nucleic acid single linear unknown 1244 ACUUGGUUCU GAAUG 15 15 base pairs nucleic acid single linear unknown 1245 CUUGGUUCUG AAUGA 15 15 base pairs nucleic acid single linear unknown 1246 AUGAGGUAUA CUUAG 15 15 base pairs nucleic acid single linear unknown 1247 GAGGUAUACU UAGGC 15 15 base pairs nucleic acid single linear unknown 1248 GUAUACUUAG GCAAA 15 15 base pairs nucleic acid single linear unknown 1249 UAUACUUAGG CAAAG 15 15 base pairs nucleic acid single linear unknown 1250 GAGAAAUUUG ACAGU 15 15 base pairs nucleic acid single linear unknown 1251 AGAAAUUUGA CAGUG 15 15 base pairs nucleic acid single linear unknown 1252 ACAGUGUUCA UUCCA 15 15 base pairs nucleic acid single linear unknown 1253 CAGUGUUCAU UCCAA 15 15 base pairs nucleic acid single linear unknown 1254 UGUUCAUUCC AAGUA 15 15 base pairs nucleic acid single linear unknown 1255 GUUCAUUCCA AGUAU 15 15 base pairs nucleic acid single linear unknown 1256 UCCAAGUAUA UGGGC 15 15 base pairs nucleic acid single linear unknown 1257 CAAGUAUAUG GGCCG 15 15 base pairs nucleic acid single linear unknown 1258 CACAAGUUUU GAUUC 15 15 base pairs nucleic acid single linear unknown 1259 ACAAGUUUUG AUUCG 15 15 base pairs nucleic acid single linear unknown 1260 CAAGUUUUGA UUCGG 15 15 base pairs nucleic acid single linear unknown 1261 UUUUGAUUCG GACAG 15 15 base pairs nucleic acid single linear unknown 1262 UUUGAUUCGG ACAGU 15 15 base pairs nucleic acid single linear unknown 1263 GGACAGUUGG ACCCU 15 15 base pairs nucleic acid single linear unknown 1264 UGAGACUUCA CAAUC 15 15 base pairs nucleic acid single linear unknown 1265 GAGACUUCAC AAUCU 15 15 base pairs nucleic acid single linear unknown 1266 UCACAAUCUU CAGAU 15 15 base pairs nucleic acid single linear unknown 1267 ACAAUCUUCA GAUCA 15 15 base pairs nucleic acid single linear unknown 1268 CAAUCUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1269 UUCAGAUCAA GGACA 15 15 base pairs nucleic acid single linear unknown 1270 AAGGGCUUGU AUCAA 15 15 base pairs nucleic acid single linear unknown 1271 GGCUUGUAUC AAUGU 15 15 base pairs nucleic acid single linear unknown 1272 CUUGUAUCAA UGUAU 15 15 base pairs nucleic acid single linear unknown 1273 UCAAUGUAUC AUCCA 15 15 base pairs nucleic acid single linear unknown 1274 AAUGUAUCAU CCAUC 15 15 base pairs nucleic acid single linear unknown 1275 GUAUCAUCCA UCACA 15 15 base pairs nucleic acid single linear unknown 1276 CAUCCAUCAC AAAAA 15 15 base pairs nucleic acid single linear unknown 1277 GAAUGAUUCG CAUCC 15 15 base pairs nucleic acid single linear unknown 1278 AAUGAUUCGC AUCCA 15 15 base pairs nucleic acid single linear unknown 1279 UUCGCAUCCA CCAGA 15 15 base pairs nucleic acid single linear unknown 1280 GAUGAAUUCU GAACU 15 15 base pairs nucleic acid single linear unknown 1281 AUGAAUUCUG AACUG 15 15 base pairs nucleic acid single linear unknown 1282 GAACUGUCAG UGCUU 15 15 base pairs nucleic acid single linear unknown 1283 CAGUGCUUGC UAACU 15 15 base pairs nucleic acid single linear unknown 1284 GCUUGCUAAC UUCAG 15 15 base pairs nucleic acid single linear unknown 1285 GCUAACUUCA GUCAA 15 15 base pairs nucleic acid single linear unknown 1286 CUAACUUCAG UCAAC 15 15 base pairs nucleic acid single linear unknown 1287 CUUCAGUCAA CCUGA 15 15 base pairs nucleic acid single linear unknown 1288 CUGAAAUAGU ACCAA 15 15 base pairs nucleic acid single linear unknown 1289 AAAUAGUACC AAUUU 15 15 base pairs nucleic acid single linear unknown 1290 UACCAAUUUC UAAUA 15 15 base pairs nucleic acid single linear unknown 1291 ACCAAUUUCU AAUAU 15 15 base pairs nucleic acid single linear unknown 1292 CCAAUUUCUA AUAUA 15 15 base pairs nucleic acid single linear unknown 1293 AAUUUCUAAU AUAAC 15 15 base pairs nucleic acid single linear unknown 1294 UUCUAAUAUA ACAGA 15 15 base pairs nucleic acid single linear unknown 1295 CUAAUAUAAC AGAAA 15 15 base pairs nucleic acid single linear unknown 1296 AAUGUGUACA UAAAU 15 15 base pairs nucleic acid single linear unknown 1297 UGUACAUAAA UUUGA 15 15 base pairs nucleic acid single linear unknown 1298 CAUAAAUUUG ACCUG 15 15 base pairs nucleic acid single linear unknown 1299 AUAAAUUUGA CCUGC 15 15 base pairs nucleic acid single linear unknown 1300 ACCUGCUCAU CUAUA 15 15 base pairs nucleic acid single linear unknown 1301 UGCUCAUCUA UACAC 15 15 base pairs nucleic acid single linear unknown 1302 CUCAUCUAUA CACGG 15 15 base pairs nucleic acid single linear unknown 1303 CAUCUAUACA CGGUU 15 15 base pairs nucleic acid single linear unknown 1304 ACACGGUUAC CCAGA 15 15 base pairs nucleic acid single linear unknown 1305 CACGGUUACC CAGAA 15 15 base pairs nucleic acid single linear unknown 1306 AGAACCUAAG AAGAU 15 15 base pairs nucleic acid single linear unknown 1307 UGAGUGUUUU GCUAA 15 15 base pairs nucleic acid single linear unknown 1308 GAGUGUUUUG CUAAG 15 15 base pairs nucleic acid single linear unknown 1309 AGUGUUUUGC UAAGA 15 15 base pairs nucleic acid single linear unknown 1310 UUUUGCUAAG AACCA 15 15 base pairs nucleic acid single linear unknown 1311 CAAGAAUUCA ACUAU 15 15 base pairs nucleic acid single linear unknown 1312 AAGAAUUCAA CUAUC 15 15 base pairs nucleic acid single linear unknown 1313 UUCAACUAUC GAGUA 15 15 base pairs nucleic acid single linear unknown 1314 CAACUAUCGA GUAUG 15 15 base pairs nucleic acid single linear unknown 1315 AUCGAGUAUG AUGGU 15 15 base pairs nucleic acid single linear unknown 1316 UGAUGGUAUU AUGCA 15 15 base pairs nucleic acid single linear unknown 1317 AUGGUAUUAU GCAGA 15 15 base pairs nucleic acid single linear unknown 1318 UGGUAUUAUG CAGAA 15 15 base pairs nucleic acid single linear unknown 1319 CAGAAAUCUC AAGAU 15 15 base pairs nucleic acid single linear unknown 1320 GAAAUCUCAA GAUAA 15 15 base pairs nucleic acid single linear unknown 1321 UCAAGAUAAU GUCAC 15 15 base pairs nucleic acid single linear unknown 1322 AUAAUGUCAC AGAAC 15 15 base pairs nucleic acid single linear unknown 1323 GAACUGUACG ACGUU 15 15 base pairs nucleic acid single linear unknown 1324 ACGACGUUUC CAUCA 15 15 base pairs nucleic acid single linear unknown 1325 CGACGUUUCC AUCAG 15 15 base pairs nucleic acid single linear unknown 1326 GACGUUUCCA UCAGC 15 15 base pairs nucleic acid single linear unknown 1327 UUUCCAUCAG CUUGU 15 15 base pairs nucleic acid single linear unknown 1328 AUCAGCUUGU CUGUU 15 15 base pairs nucleic acid single linear unknown 1329 AGCUUGUCUG UUUCA 15 15 base pairs nucleic acid single linear unknown 1330 UGUCUGUUUC AUUCC 15 15 base pairs nucleic acid single linear unknown 1331 GUCUGUUUCA UUCCC 15 15 base pairs nucleic acid single linear unknown 1332 UCUGUUUCAU UCCCU 15 15 base pairs nucleic acid single linear unknown 1333 GUUUCAUUCC CUGAU 15 15 base pairs nucleic acid single linear unknown 1334 UUUCAUUCCC UGAUG 15 15 base pairs nucleic acid single linear unknown 1335 CUGAUGUUAC GAGCA 15 15 base pairs nucleic acid single linear unknown 1336 UGAUGUUACG AGCAA 15 15 base pairs nucleic acid single linear unknown 1337 GAGCAAUAUG ACCAU 15 15 base pairs nucleic acid single linear unknown 1338 UGACCAUCUU CUGUA 15 15 base pairs nucleic acid single linear unknown 1339 ACCAUCUUCU GUAUU 15 15 base pairs nucleic acid single linear unknown 1340 CCAUCUUCUG UAUUC 15 15 base pairs nucleic acid single linear unknown 1341 CUUCUGUAUU CUGGA 15 15 base pairs nucleic acid single linear unknown 1342 UCUGUAUUCU GGAAA 15 15 base pairs nucleic acid single linear unknown 1343 CUGUAUUCUG GAAAC 15 15 base pairs nucleic acid single linear unknown 1344 CGCGGCUUUU AUCUU 15 15 base pairs nucleic acid single linear unknown 1345 GCGGCUUUUA UCUUC 15 15 base pairs nucleic acid single linear unknown 1346 CGGCUUUUAU CUUCA 15 15 base pairs nucleic acid single linear unknown 1347 GGCUUUUAUC UUCAC 15 15 base pairs nucleic acid single linear unknown 1348 CUUUUAUCUU CACCU 15 15 base pairs nucleic acid single linear unknown 1349 UUUAUCUUCA CCUUU 15 15 base pairs nucleic acid single linear unknown 1350 UUAUCUUCAC CUUUC 15 15 base pairs nucleic acid single linear unknown 1351 UUCACCUUUC UCUAU 15 15 base pairs nucleic acid single linear unknown 1352 UCACCUUUCU CUAUA 15 15 base pairs nucleic acid single linear unknown 1353 CACCUUUCUC UAUAG 15 15 base pairs nucleic acid single linear unknown 1354 CCUUUCUCUA UAGAG 15 15 base pairs nucleic acid single linear unknown 1355 UUUCUCUAUA GAGCU 15 15 base pairs nucleic acid single linear unknown 1356 UCUCUAUAGA GCUUG 15 15 base pairs nucleic acid single linear unknown 1357 UAGAGCUUGA GGACC 15 15 base pairs nucleic acid single linear unknown 1358 GGACCCUCAG CCUCC 15 15 base pairs nucleic acid single linear unknown 1359 UCAGCCUCCC CCAGA 15 15 base pairs nucleic acid single linear unknown 1360 ACCACAUUCC UUGGA 15 15 base pairs nucleic acid single linear unknown 1361 CCACAUUCCU UGGAU 15 15 base pairs nucleic acid single linear unknown 1362 CAUUCCUUGG AUUAC 15 15 base pairs nucleic acid single linear unknown 1363 CUUGGAUUAC AGCUG 15 15 base pairs nucleic acid single linear unknown 1364 UUGGAUUACA GCUGU 15 15 base pairs nucleic acid single linear unknown 1365 CAGCUGUACU UCCAA 15 15 base pairs nucleic acid single linear unknown 1366 CUGUACUUCC AACAG 15 15 base pairs nucleic acid single linear unknown 1367 UGUACUUCCA ACAGU 15 15 base pairs nucleic acid single linear unknown 1368 CAACAGUUAU UAUAU 15 15 base pairs nucleic acid single linear unknown 1369 AACAGUUAUU AUAUG 15 15 base pairs nucleic acid single linear unknown 1370 CAGUUAUUAU AUGUG 15 15 base pairs nucleic acid single linear unknown 1371 AGUUAUUAUA UGUGU 15 15 base pairs nucleic acid single linear unknown 1372 UUAUUAUAUG UGUGA 15 15 base pairs nucleic acid single linear unknown 1373 UGAUGGUUUU CUGUC 15 15 base pairs nucleic acid single linear unknown 1374 GAUGGUUUUC UGUCU 15 15 base pairs nucleic acid single linear unknown 1375 AUGGUUUUCU GUCUA 15 15 base pairs nucleic acid single linear unknown 1376 UGGUUUUCUG UCUAA 15 15 base pairs nucleic acid single linear unknown 1377 UUUCUGUCUA AUUCU 15 15 base pairs nucleic acid single linear unknown 1378 UCUGUCUAAU UCUAU 15 15 base pairs nucleic acid single linear unknown 1379 GUCUAAUUCU AUGGA 15 15 base pairs nucleic acid single linear unknown 1380 UCUAAUUCUA UGGAA 15 15 base pairs nucleic acid single linear unknown 1381 UAAUUCUAUG GAAAU 15 15 base pairs nucleic acid single linear unknown 1382 GCGGCCUCGC AACUC 15 15 base pairs nucleic acid single linear unknown 1383 CGCAACUCUU AUAAA 15 15 base pairs nucleic acid single linear unknown 1384 CAACUCUUAU AAAUG 15 15 base pairs nucleic acid single linear unknown 1385 AACUCUUAUA AAUGU 15 15 base pairs nucleic acid single linear unknown 1386 CUCUUAUAAA UGUGG 15 15 base pairs nucleic acid single linear unknown 1387 AAAAAAUCCA UAUAC 15 15 base pairs nucleic acid single linear unknown 1388 AAUCCAUAUA CCUGA 15 15 base pairs nucleic acid single linear unknown 1389 UCCAUAUACC UGAAA 15 15 base pairs nucleic acid single linear unknown 1390 GAAAGAUCUG AUGAA 15 15 base pairs nucleic acid single linear unknown 1391 AGCGUGUUUU UAAAA 15 15 base pairs nucleic acid single linear unknown 1392 GCGUGUUUUU AAAAG 15 15 base pairs nucleic acid single linear unknown 1393 CGUGUUUUUA AAAGU 15 15 base pairs nucleic acid single linear unknown 1394 GUGUUUUUAA AAGUU 15 15 base pairs nucleic acid single linear unknown 1395 UGUUUUUAAA AGUUC 15 15 base pairs nucleic acid single linear unknown 1396 UAAAAGUUCG AAGAC 15 15 base pairs nucleic acid single linear unknown 1397 AAAAGUUCGA AGACA 15 15 base pairs nucleic acid single linear unknown 1398 AAGACAUCUU CAUGC 15 15 base pairs nucleic acid single linear unknown 1399 GACAUCUUCA UGCGA 15 15 base pairs nucleic acid single linear unknown 1400 ACAUCUUCAU GCGAC 15 15 base pairs nucleic acid single linear unknown 1401 AAGUGAUACA UGUUU 15 15 base pairs nucleic acid single linear unknown 1402 UACAUGUUUU UAAUU 15 15 base pairs nucleic acid single linear unknown 1403 ACAUGUUUUU AAUUA 15 15 base pairs nucleic acid single linear unknown 1404 CAUGUUUUUA AUUAA 15 15 base pairs nucleic acid single linear unknown 1405 AUGUUUUUAA UUAAA 15 15 base pairs nucleic acid single linear unknown 1406 UGUUUUUAAU UAAAG 15 15 base pairs nucleic acid single linear unknown 1407 UUUUAAUUAA AGAGU 15 15 base pairs nucleic acid single linear unknown 1408 UUUAAUUAAA GAGUA 15 36 base pairs nucleic acid single linear unknown 1409 AGAAGCACUG AUGAGGCCGA AAGGCCGAAA GCUUUC 36 36 base pairs nucleic acid single linear unknown 1410 GAGAAGCCUG AUGAGGCCGA AAGGCCGAAA AGCUUU 36 36 base pairs nucleic acid single linear unknown 1411 AGCAGAGCUG AUGAGGCCGA AAGGCCGAAA GCAAAG 36 36 base pairs nucleic acid single linear unknown 1412 CAGCAGACUG AUGAGGCCGA AAGGCCGAAA AGCAAA 36 36 base pairs nucleic acid single linear unknown 1413 AGCAGCACUG AUGAGGCCGA AAGGCCGAAA GAAGCA 36 36 base pairs nucleic acid single linear unknown 1414 UCCCUGUCUG AUGAGGCCGA AAGGCCGAAA CAGCAG 36 36 base pairs nucleic acid single linear unknown 1415 UCUGUGCCUG AUGAGGCCGA AAGGCCGAAA GUCCCU 36 36 base pairs nucleic acid single linear unknown 1416 UGGAAAUCUG AUGAGGCCGA AAGGCCGAAA CCCCAC 36 36 base pairs nucleic acid single linear unknown 1417 AUCUGGACUG AUGAGGCCGA AAGGCCGAAA UGACCC 36 36 base pairs nucleic acid single linear unknown 1418 UAUCUGGCUG AUGAGGCCGA AAGGCCGAAA AUGACC 36 36 base pairs nucleic acid single linear unknown 1419 AUAUCUGCUG AUGAGGCCGA AAGGCCGAAA AAUGAC 36 36 base pairs nucleic acid single linear unknown 1420 GACCUAACUG AUGAGGCCGA AAGGCCGAAA UCUGGA 36 36 base pairs nucleic acid single linear unknown 1421 GUGACCUCUG AUGAGGCCGA AAGGCCGAAA UAUCUG 36 36 base pairs nucleic acid single linear unknown 1422 UGUGACCCUG AUGAGGCCGA AAGGCCGAAA AUAUCU 36 36 base pairs nucleic acid single linear unknown 1423 CUGCUGUCUG AUGAGGCCGA AAGGCCGAAA CCUAAU 36 36 base pairs nucleic acid single linear unknown 1424 CACUGGGCUG AUGAGGCCGA AAGGCCGAAA UCCAUU 36 36 base pairs nucleic acid single linear unknown 1425 AGUCCCACUG AUGAGGCCGA AAGGCCGAAA GUGCAC 36 36 base pairs nucleic acid single linear unknown 1426 AGAAUGUCUG AUGAGGCCGA AAGGCCGAAA CUCAGU 36 36 base pairs nucleic acid single linear unknown 1427 CAAAGAGCUG AUGAGGCCGA AAGGCCGAAA UGUUAC 36 36 base pairs nucleic acid single linear unknown 1428 ACAAAGACUG AUGAGGCCGA AAGGCCGAAA AUGUUA 36 36 base pairs nucleic acid single linear unknown 1429 UCACAAACUG AUGAGGCCGA AAGGCCGAAA GAAUGU 36 36 base pairs nucleic acid single linear unknown 1430 CAUCACACUG AUGAGGCCGA AAGGCCGAAA GAGAAU 36 36 base pairs nucleic acid single linear unknown 1431 CCAUCACCUG AUGAGGCCGA AAGGCCGAAA AGAGAA 36 36 base pairs nucleic acid single linear unknown 1432 GAGCAGGCUG AUGAGGCCGA AAGGCCGAAA GGCCAU 36 36 base pairs nucleic acid single linear unknown 1433 AGAGCAGCUG AUGAGGCCGA AAGGCCGAAA AGGCCA 36 36 base pairs nucleic acid single linear unknown 1434 CACCAGACUG AUGAGGCCGA AAGGCCGAAA GCAGGA 36 36 base pairs nucleic acid single linear unknown 1435 AGCACCACUG AUGAGGCCGA AAGGCCGAAA GAGCAG 36 36 base pairs nucleic acid single linear unknown 1436 UUCAGAGCUG AUGAGGCCGA AAGGCCGAAA GCAGCA 36 36 base pairs nucleic acid single linear unknown 1437 AUCUUCACUG AUGAGGCCGA AAGGCCGAAA GGAGCA 36 36 base pairs nucleic acid single linear unknown 1438 AAGCUUGCUG AUGAGGCCGA AAGGCCGAAA UCUUCA 36 36 base pairs nucleic acid single linear unknown 1439 UAAGCUUCUG AUGAGGCCGA AAGGCCGAAA AUCUUC 36 36 base pairs nucleic acid single linear unknown 1440 UUGAAAUCUG AUGAGGCCGA AAGGCCGAAA GCUUGA 36 36 base pairs nucleic acid single linear unknown 1441 AUUGAAACUG AUGAGGCCGA AAGGCCGAAA AGCUUG 36 36 base pairs nucleic acid single linear unknown 1442 UCAUUGACUG AUGAGGCCGA AAGGCCGAAA UAAGCU 36 36 base pairs nucleic acid single linear unknown 1443 CUCAUUGCUG AUGAGGCCGA AAGGCCGAAA AUAAGC 36 36 base pairs nucleic acid single linear unknown 1444 UCUCAUUCUG AUGAGGCCGA AAGGCCGAAA AAUAAG 36 36 base pairs nucleic acid single linear unknown 1445 GUUUGCACUG AUGAGGCCGA AAGGCCGAAA UUGGCA 36 36 base pairs nucleic acid single linear unknown 1446 AGUUUGCCUG AUGAGGCCGA AAGGCCGAAA AUUGGC 36 36 base pairs nucleic acid single linear unknown 1447 GUUUUGACUG AUGAGGCCGA AAGGCCGAAA GUUUGC 36 36 base pairs nucleic acid single linear unknown 1448 UGGUUUUCUG AUGAGGCCGA AAGGCCGAAA GAGUUU 36 36 base pairs nucleic acid single linear unknown 1449 AUACUACCUG AUGAGGCCGA AAGGCCGAAA GCUCAC 36 36 base pairs nucleic acid single linear unknown 1450 AAAAUACCUG AUGAGGCCGA AAGGCCGAAA CUAGCU 36 36 base pairs nucleic acid single linear unknown 1451 GCCAAAACUG AUGAGGCCGA AAGGCCGAAA CUACUA 36 36 base pairs nucleic acid single linear unknown 1452 CUGCCAACUG AUGAGGCCGA AAGGCCGAAA UACUAC 36 36 base pairs nucleic acid single linear unknown 1453 CCUGCCACUG AUGAGGCCGA AAGGCCGAAA AUACUA 36 36 base pairs nucleic acid single linear unknown 1454 UCCUGCCCUG AUGAGGCCGA AAGGCCGAAA AAUACU 36 36 base pairs nucleic acid single linear unknown 1455 CAGAACCCUG AUGAGGCCGA AAGGCCGAAA GUUUUC 36 36 base pairs nucleic acid single linear unknown 1456 CAUUCAGCUG AUGAGGCCGA AAGGCCGAAA CCAAGU 36 36 base pairs nucleic acid single linear unknown 1457 UCAUUCACUG AUGAGGCCGA AAGGCCGAAA ACCAAG 36 36 base pairs nucleic acid single linear unknown 1458 CUAAGUACUG AUGAGGCCGA AAGGCCGAAA CCUCAU 36 36 base pairs nucleic acid single linear unknown 1459 GCCUAAGCUG AUGAGGCCGA AAGGCCGAAA UACCUC 36 36 base pairs nucleic acid single linear unknown 1460 UUUGCCUCUG AUGAGGCCGA AAGGCCGAAA GUAUAC 36 36 base pairs nucleic acid single linear unknown 1461 CUUUGCCCUG AUGAGGCCGA AAGGCCGAAA AGUAUA 36 36 base pairs nucleic acid single linear unknown 1462 ACUGUCACUG AUGAGGCCGA AAGGCCGAAA UUUCUC 36 36 base pairs nucleic acid single linear unknown 1463 CACUGUCCUG AUGAGGCCGA AAGGCCGAAA AUUUCU 36 36 base pairs nucleic acid single linear unknown 1464 UGGAAUGCUG AUGAGGCCGA AAGGCCGAAA CACUGU 36 36 base pairs nucleic acid single linear unknown 1465 UUGGAAUCUG AUGAGGCCGA AAGGCCGAAA ACACUG 36 36 base pairs nucleic acid single linear unknown 1466 UACUUGGCUG AUGAGGCCGA AAGGCCGAAA UGAACA 36 36 base pairs nucleic acid single linear unknown 1467 AUACUUGCUG AUGAGGCCGA AAGGCCGAAA AUGAAC 36 36 base pairs nucleic acid single linear unknown 1468 GCCCAUACUG AUGAGGCCGA AAGGCCGAAA CUUGGA 36 36 base pairs nucleic acid single linear unknown 1469 CGGCCCACUG AUGAGGCCGA AAGGCCGAAA UACUUG 36 36 base pairs nucleic acid single linear unknown 1470 GAAUCAACUG AUGAGGCCGA AAGGCCGAAA CUUGUG 36 36 base pairs nucleic acid single linear unknown 1471 CGAAUCACUG AUGAGGCCGA AAGGCCGAAA ACUUGU 36 36 base pairs nucleic acid single linear unknown 1472 CCGAAUCCUG AUGAGGCCGA AAGGCCGAAA AACUUG 36 36 base pairs nucleic acid single linear unknown 1473 CUGUCCGCUG AUGAGGCCGA AAGGCCGAAA UCAAAA 36 36 base pairs nucleic acid single linear unknown 1474 ACUGUCCCUG AUGAGGCCGA AAGGCCGAAA AUCAAA 36 36 base pairs nucleic acid single linear unknown 1475 AGGGUCCCUG AUGAGGCCGA AAGGCCGAAA CUGUCC 36 36 base pairs nucleic acid single linear unknown 1476 GAUUGUGCUG AUGAGGCCGA AAGGCCGAAA GUCUCA 36 36 base pairs nucleic acid single linear unknown 1477 AGAUUGUCUG AUGAGGCCGA AAGGCCGAAA AGUCUC 36 36 base pairs nucleic acid single linear unknown 1478 AUCUGAACUG AUGAGGCCGA AAGGCCGAAA UUGUGA 36 36 base pairs nucleic acid single linear unknown 1479 UGAUCUGCUG AUGAGGCCGA AAGGCCGAAA GAUUGU 36 36 base pairs nucleic acid single linear unknown 1480 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA AGAUUG 36 36 base pairs nucleic acid single linear unknown 1481 UGUCCUUCUG AUGAGGCCGA AAGGCCGAAA UCUGAA 36 36 base pairs nucleic acid single linear unknown 1482 UUGAUACCUG AUGAGGCCGA AAGGCCGAAA GCCCUU 36 36 base pairs nucleic acid single linear unknown 1483 ACAUUGACUG AUGAGGCCGA AAGGCCGAAA CAAGCC 36 36 base pairs nucleic acid single linear unknown 1484 AUACAUUCUG AUGAGGCCGA AAGGCCGAAA UACAAG 36 36 base pairs nucleic acid single linear unknown 1485 UGGAUGACUG AUGAGGCCGA AAGGCCGAAA CAUUGA 36 36 base pairs nucleic acid single linear unknown 1486 GAUGGAUCUG AUGAGGCCGA AAGGCCGAAA UACAUU 36 36 base pairs nucleic acid single linear unknown 1487 UGUGAUGCUG AUGAGGCCGA AAGGCCGAAA UGAUAC 36 36 base pairs nucleic acid single linear unknown 1488 UUUUUGUCUG AUGAGGCCGA AAGGCCGAAA UGGAUG 36 36 base pairs nucleic acid single linear unknown 1489 GGAUGCGCUG AUGAGGCCGA AAGGCCGAAA UCAUUC 36 36 base pairs nucleic acid single linear unknown 1490 UGGAUGCCUG AUGAGGCCGA AAGGCCGAAA AUCAUU 36 36 base pairs nucleic acid single linear unknown 1491 UCUGGUGCUG AUGAGGCCGA AAGGCCGAAA UGCGAA 36 36 base pairs nucleic acid single linear unknown 1492 AGUUCAGCUG AUGAGGCCGA AAGGCCGAAA UUCAUC 36 36 base pairs nucleic acid single linear unknown 1493 CAGUUCACUG AUGAGGCCGA AAGGCCGAAA AUUCAU 36 36 base pairs nucleic acid single linear unknown 1494 AAGCACUCUG AUGAGGCCGA AAGGCCGAAA CAGUUC 36 36 base pairs nucleic acid single linear unknown 1495 AGUUAGCCUG AUGAGGCCGA AAGGCCGAAA GCACUG 36 36 base pairs nucleic acid single linear unknown 1496 CUGAAGUCUG AUGAGGCCGA AAGGCCGAAA GCAAGC 36 36 base pairs nucleic acid single linear unknown 1497 UUGACUGCUG AUGAGGCCGA AAGGCCGAAA GUUAGC 36 36 base pairs nucleic acid single linear unknown 1498 GUUGACUCUG AUGAGGCCGA AAGGCCGAAA AGUUAG 36 36 base pairs nucleic acid single linear unknown 1499 UCAGGUUCUG AUGAGGCCGA AAGGCCGAAA CUGAAG 36 36 base pairs nucleic acid single linear unknown 1500 UUGGUACCUG AUGAGGCCGA AAGGCCGAAA UUUCAG 36 36 base pairs nucleic acid single linear unknown 1501 AAAUUGGCUG AUGAGGCCGA AAGGCCGAAA CUAUUU 36 36 base pairs nucleic acid single linear unknown 1502 UAUUAGACUG AUGAGGCCGA AAGGCCGAAA UUGGUA 36 36 base pairs nucleic acid single linear unknown 1503 AUAUUAGCUG AUGAGGCCGA AAGGCCGAAA AUUGGU 36 36 base pairs nucleic acid single linear unknown 1504 UAUAUUACUG AUGAGGCCGA AAGGCCGAAA AAUUGG 36 36 base pairs nucleic acid single linear unknown 1505 GUUAUAUCUG AUGAGGCCGA AAGGCCGAAA GAAAUU 36 36 base pairs nucleic acid single linear unknown 1506 UCUGUUACUG AUGAGGCCGA AAGGCCGAAA UUAGAA 36 36 base pairs nucleic acid single linear unknown 1507 UUUCUGUCUG AUGAGGCCGA AAGGCCGAAA UAUUAG 36 36 base pairs nucleic acid single linear unknown 1508 AUUUAUGCUG AUGAGGCCGA AAGGCCGAAA CACAUU 36 36 base pairs nucleic acid single linear unknown 1509 UCAAAUUCUG AUGAGGCCGA AAGGCCGAAA UGUACA 36 36 base pairs nucleic acid single linear unknown 1510 CAGGUCACUG AUGAGGCCGA AAGGCCGAAA UUUAUG 36 36 base pairs nucleic acid single linear unknown 1511 GCAGGUCCUG AUGAGGCCGA AAGGCCGAAA AUUUAU 36 36 base pairs nucleic acid single linear unknown 1512 UAUAGAUCUG AUGAGGCCGA AAGGCCGAAA GCAGGU 36 36 base pairs nucleic acid single linear unknown 1513 GUGUAUACUG AUGAGGCCGA AAGGCCGAAA UGAGCA 36 36 base pairs nucleic acid single linear unknown 1514 CCGUGUACUG AUGAGGCCGA AAGGCCGAAA GAUGAG 36 36 base pairs nucleic acid single linear unknown 1515 AACCGUGCUG AUGAGGCCGA AAGGCCGAAA UAGAUG 36 36 base pairs nucleic acid single linear unknown 1516 UCUGGGUCUG AUGAGGCCGA AAGGCCGAAA CCGUGU 36 36 base pairs nucleic acid single linear unknown 1517 UUCUGGGCUG AUGAGGCCGA AAGGCCGAAA ACCGUG 36 36 base pairs nucleic acid single linear unknown 1518 AUCUUCUCUG AUGAGGCCGA AAGGCCGAAA GGUUCU 36 36 base pairs nucleic acid single linear unknown 1519 UUAGCAACUG AUGAGGCCGA AAGGCCGAAA CACUCA 36 36 base pairs nucleic acid single linear unknown 1520 CUUAGCACUG AUGAGGCCGA AAGGCCGAAA ACACUC 36 36 base pairs nucleic acid single linear unknown 1521 UCUUAGCCUG AUGAGGCCGA AAGGCCGAAA AACACU 36 36 base pairs nucleic acid single linear unknown 1522 UGGUUCUCUG AUGAGGCCGA AAGGCCGAAA GCAAAA 36 36 base pairs nucleic acid single linear unknown 1523 AUAGUUGCUG AUGAGGCCGA AAGGCCGAAA UUCUUG 36 36 base pairs nucleic acid single linear unknown 1524 GAUAGUUCUG AUGAGGCCGA AAGGCCGAAA AUUCUU 36 36 base pairs nucleic acid single linear unknown 1525 UACUCGACUG AUGAGGCCGA AAGGCCGAAA GUUGAA 36 36 base pairs nucleic acid single linear unknown 1526 CAUACUCCUG AUGAGGCCGA AAGGCCGAAA UAGUUG 36 36 base pairs nucleic acid single linear unknown 1527 ACCAUCACUG AUGAGGCCGA AAGGCCGAAA CUCGAU 36 36 base pairs nucleic acid single linear unknown 1528 UGCAUAACUG AUGAGGCCGA AAGGCCGAAA CCAUCA 36 36 base pairs nucleic acid single linear unknown 1529 UCUGCAUCUG AUGAGGCCGA AAGGCCGAAA UACCAU 36 36 base pairs nucleic acid single linear unknown 1530 UUCUGCACUG AUGAGGCCGA AAGGCCGAAA AUACCA 36 36 base pairs nucleic acid single linear unknown 1531 AUCUUGACUG AUGAGGCCGA AAGGCCGAAA UUUCUG 36 36 base pairs nucleic acid single linear unknown 1532 UUAUCUUCUG AUGAGGCCGA AAGGCCGAAA GAUUUC 36 36 base pairs nucleic acid single linear unknown 1533 GUGACAUCUG AUGAGGCCGA AAGGCCGAAA UCUUGA 36 36 base pairs nucleic acid single linear unknown 1534 GUUCUGUCUG AUGAGGCCGA AAGGCCGAAA CAUUAU 36 36 base pairs nucleic acid single linear unknown 1535 AACGUCGCUG AUGAGGCCGA AAGGCCGAAA CAGUUC 36 36 base pairs nucleic acid single linear unknown 1536 UGAUGGACUG AUGAGGCCGA AAGGCCGAAA CGUCGU 36 36 base pairs nucleic acid single linear unknown 1537 CUGAUGGCUG AUGAGGCCGA AAGGCCGAAA ACGUCG 36 36 base pairs nucleic acid single linear unknown 1538 GCUGAUGCUG AUGAGGCCGA AAGGCCGAAA AACGUC 36 36 base pairs nucleic acid single linear unknown 1539 ACAAGCUCUG AUGAGGCCGA AAGGCCGAAA UGGAAA 36 36 base pairs nucleic acid single linear unknown 1540 AACAGACCUG AUGAGGCCGA AAGGCCGAAA GCUGAU 36 36 base pairs nucleic acid single linear unknown 1541 UGAAACACUG AUGAGGCCGA AAGGCCGAAA CAAGCU 36 36 base pairs nucleic acid single linear unknown 1542 GGAAUGACUG AUGAGGCCGA AAGGCCGAAA CAGACA 36 36 base pairs nucleic acid single linear unknown 1543 GGGAAUGCUG AUGAGGCCGA AAGGCCGAAA ACAGAC 36 36 base pairs nucleic acid single linear unknown 1544 AGGGAAUCUG AUGAGGCCGA AAGGCCGAAA AACAGA 36 36 base pairs nucleic acid single linear unknown 1545 AUCAGGGCUG AUGAGGCCGA AAGGCCGAAA UGAAAC 36 36 base pairs nucleic acid single linear unknown 1546 CAUCAGGCUG AUGAGGCCGA AAGGCCGAAA AUGAAA 36 36 base pairs nucleic acid single linear unknown 1547 UGCUCGUCUG AUGAGGCCGA AAGGCCGAAA CAUCAG 36 36 base pairs nucleic acid single linear unknown 1548 UUGCUCGCUG AUGAGGCCGA AAGGCCGAAA ACAUCA 36 36 base pairs nucleic acid single linear unknown 1549 AUGGUCACUG AUGAGGCCGA AAGGCCGAAA UUGCUC 36 36 base pairs nucleic acid single linear unknown 1550 UACAGAACUG AUGAGGCCGA AAGGCCGAAA UGGUCA 36 36 base pairs nucleic acid single linear unknown 1551 AAUACAGCUG AUGAGGCCGA AAGGCCGAAA GAUGGU 36 36 base pairs nucleic acid single linear unknown 1552 GAAUACACUG AUGAGGCCGA AAGGCCGAAA AGAUGG 36 36 base pairs nucleic acid single linear unknown 1553 UCCAGAACUG AUGAGGCCGA AAGGCCGAAA CAGAAG 36 36 base pairs nucleic acid single linear unknown 1554 UUUCCAGCUG AUGAGGCCGA AAGGCCGAAA UACAGA 36 36 base pairs nucleic acid single linear unknown 1555 GUUUCCACUG AUGAGGCCGA AAGGCCGAAA AUACAG 36 36 base pairs nucleic acid single linear unknown 1556 AAGAUAACUG AUGAGGCCGA AAGGCCGAAA GCCGCG 36 36 base pairs nucleic acid single linear unknown 1557 GAAGAUACUG AUGAGGCCGA AAGGCCGAAA AGCCGC 36 36 base pairs nucleic acid single linear unknown 1558 UGAAGAUCUG AUGAGGCCGA AAGGCCGAAA AAGCCG 36 36 base pairs nucleic acid single linear unknown 1559 GUGAAGACUG AUGAGGCCGA AAGGCCGAAA AAAGCC 36 36 base pairs nucleic acid single linear unknown 1560 AGGUGAACUG AUGAGGCCGA AAGGCCGAAA UAAAAG 36 36 base pairs nucleic acid single linear unknown 1561 AAAGGUGCUG AUGAGGCCGA AAGGCCGAAA GAUAAA 36 36 base pairs nucleic acid single linear unknown 1562 GAAAGGUCUG AUGAGGCCGA AAGGCCGAAA AGAUAA 36 36 base pairs nucleic acid single linear unknown 1563 AUAGAGACUG AUGAGGCCGA AAGGCCGAAA GGUGAA 36 36 base pairs nucleic acid single linear unknown 1564 UAUAGAGCUG AUGAGGCCGA AAGGCCGAAA AGGUGA 36 36 base pairs nucleic acid single linear unknown 1565 CUAUAGACUG AUGAGGCCGA AAGGCCGAAA AAGGUG 36 36 base pairs nucleic acid single linear unknown 1566 CUCUAUACUG AUGAGGCCGA AAGGCCGAAA GAAAGG 36 36 base pairs nucleic acid single linear unknown 1567 AGCUCUACUG AUGAGGCCGA AAGGCCGAAA GAGAAA 36 36 base pairs nucleic acid single linear unknown 1568 CAAGCUCCUG AUGAGGCCGA AAGGCCGAAA UAGAGA 36 36 base pairs nucleic acid single linear unknown 1569 GGUCCUCCUG AUGAGGCCGA AAGGCCGAAA GCUCUA 36 36 base pairs nucleic acid single linear unknown 1570 GGAGGCUCUG AUGAGGCCGA AAGGCCGAAA GGGUCC 36 36 base pairs nucleic acid single linear unknown 1571 UCUGGGGCUG AUGAGGCCGA AAGGCCGAAA GGCUGA 36 36 base pairs nucleic acid single linear unknown 1572 UCCAAGGCUG AUGAGGCCGA AAGGCCGAAA UGUGGU 36 36 base pairs nucleic acid single linear unknown 1573 AUCCAAGCUG AUGAGGCCGA AAGGCCGAAA AUGUGG 36 36 base pairs nucleic acid single linear unknown 1574 GUAAUCCCUG AUGAGGCCGA AAGGCCGAAA GGAAUG 36 36 base pairs nucleic acid single linear unknown 1575 CAGCUGUCUG AUGAGGCCGA AAGGCCGAAA UCCAAG 36 36 base pairs nucleic acid single linear unknown 1576 ACAGCUGCUG AUGAGGCCGA AAGGCCGAAA AUCCAA 36 36 base pairs nucleic acid single linear unknown 1577 UUGGAAGCUG AUGAGGCCGA AAGGCCGAAA CAGCUG 36 36 base pairs nucleic acid single linear unknown 1578 CUGUUGGCUG AUGAGGCCGA AAGGCCGAAA GUACAG 36 36 base pairs nucleic acid single linear unknown 1579 ACUGUUGCUG AUGAGGCCGA AAGGCCGAAA AGUACA 36 36 base pairs nucleic acid single linear unknown 1580 AUAUAAUCUG AUGAGGCCGA AAGGCCGAAA CUGUUG 36 36 base pairs nucleic acid single linear unknown 1581 CAUAUAACUG AUGAGGCCGA AAGGCCGAAA ACUGUU 36 36 base pairs nucleic acid single linear unknown 1582 CACAUAUCUG AUGAGGCCGA AAGGCCGAAA UAACUG 36 36 base pairs nucleic acid single linear unknown 1583 ACACAUACUG AUGAGGCCGA AAGGCCGAAA AUAACU 36 36 base pairs nucleic acid single linear unknown 1584 UCACACACUG AUGAGGCCGA AAGGCCGAAA UAAUAA 36 36 base pairs nucleic acid single linear unknown 1585 GACAGAACUG AUGAGGCCGA AAGGCCGAAA CCAUCA 36 36 base pairs nucleic acid single linear unknown 1586 AGACAGACUG AUGAGGCCGA AAGGCCGAAA ACCAUC 36 36 base pairs nucleic acid single linear unknown 1587 UAGACAGCUG AUGAGGCCGA AAGGCCGAAA AACCAU 36 36 base pairs nucleic acid single linear unknown 1588 UUAGACACUG AUGAGGCCGA AAGGCCGAAA AAACCA 36 36 base pairs nucleic acid single linear unknown 1589 AGAAUUACUG AUGAGGCCGA AAGGCCGAAA CAGAAA 36 36 base pairs nucleic acid single linear unknown 1590 AUAGAAUCUG AUGAGGCCGA AAGGCCGAAA GACAGA 36 36 base pairs nucleic acid single linear unknown 1591 UCCAUAGCUG AUGAGGCCGA AAGGCCGAAA UUAGAC 36 36 base pairs nucleic acid single linear unknown 1592 UUCCAUACUG AUGAGGCCGA AAGGCCGAAA AUUAGA 36 36 base pairs nucleic acid single linear unknown 1593 AUUUCCACUG AUGAGGCCGA AAGGCCGAAA GAAUUA 36 36 base pairs nucleic acid single linear unknown 1594 GAGUUGCCUG AUGAGGCCGA AAGGCCGAAA GGCCGC 36 36 base pairs nucleic acid single linear unknown 1595 UUUAUAACUG AUGAGGCCGA AAGGCCGAAA GUUGCG 36 36 base pairs nucleic acid single linear unknown 1596 CAUUUAUCUG AUGAGGCCGA AAGGCCGAAA GAGUUG 36 36 base pairs nucleic acid single linear unknown 1597 ACAUUUACUG AUGAGGCCGA AAGGCCGAAA AGAGUU 36 36 base pairs nucleic acid single linear unknown 1598 CCACAUUCUG AUGAGGCCGA AAGGCCGAAA UAAGAG 36 36 base pairs nucleic acid single linear unknown 1599 GUAUAUGCUG AUGAGGCCGA AAGGCCGAAA UUUUUU 36 36 base pairs nucleic acid single linear unknown 1600 UCAGGUACUG AUGAGGCCGA AAGGCCGAAA UGGAUU 36 36 base pairs nucleic acid single linear unknown 1601 UUUCAGGCUG AUGAGGCCGA AAGGCCGAAA UAUGGA 36 36 base pairs nucleic acid single linear unknown 1602 UUCAUCACUG AUGAGGCCGA AAGGCCGAAA UCUUUC 36 36 base pairs nucleic acid single linear unknown 1603 UUUUAAACUG AUGAGGCCGA AAGGCCGAAA CACGCU 36 36 base pairs nucleic acid single linear unknown 1604 CUUUUAACUG AUGAGGCCGA AAGGCCGAAA ACACGC 36 36 base pairs nucleic acid single linear unknown 1605 ACUUUUACUG AUGAGGCCGA AAGGCCGAAA AACACG 36 36 base pairs nucleic acid single linear unknown 1606 AACUUUUCUG AUGAGGCCGA AAGGCCGAAA AAACAC 36 36 base pairs nucleic acid single linear unknown 1607 GAACUUUCUG AUGAGGCCGA AAGGCCGAAA AAAACA 36 36 base pairs nucleic acid single linear unknown 1608 GUCUUCGCUG AUGAGGCCGA AAGGCCGAAA CUUUUA 36 36 base pairs nucleic acid single linear unknown 1609 UGUCUUCCUG AUGAGGCCGA AAGGCCGAAA ACUUUU 36 36 base pairs nucleic acid single linear unknown 1610 GCAUGAACUG AUGAGGCCGA AAGGCCGAAA UGUCUU 36 36 base pairs nucleic acid single linear unknown 1611 UCGCAUGCUG AUGAGGCCGA AAGGCCGAAA GAUGUC 36 36 base pairs nucleic acid single linear unknown 1612 GUCGCAUCUG AUGAGGCCGA AAGGCCGAAA AGAUGU 36 36 base pairs nucleic acid single linear unknown 1613 AAACAUGCUG AUGAGGCCGA AAGGCCGAAA UCACUU 36 36 base pairs nucleic acid single linear unknown 1614 AAUUAAACUG AUGAGGCCGA AAGGCCGAAA CAUGUA 36 36 base pairs nucleic acid single linear unknown 1615 UAAUUAACUG AUGAGGCCGA AAGGCCGAAA ACAUGU 36 36 base pairs nucleic acid single linear unknown 1616 UUAAUUACUG AUGAGGCCGA AAGGCCGAAA AACAUG 36 36 base pairs nucleic acid single linear unknown 1617 UUUAAUUCUG AUGAGGCCGA AAGGCCGAAA AAACAU 36 36 base pairs nucleic acid single linear unknown 1618 CUUUAAUCUG AUGAGGCCGA AAGGCCGAAA AAAACA 36 36 base pairs nucleic acid single linear unknown 1619 ACUCUUUCUG AUGAGGCCGA AAGGCCGAAA UUAAAA 36 36 base pairs nucleic acid single linear unknown 1620 UACUCUUCUG AUGAGGCCGA AAGGCCGAAA AUUAAA 36 15 base pairs nucleic acid single linear unknown 1621 ACGGACUUGA ACAAC 15 15 base pairs nucleic acid single linear unknown 1622 ACGGACUUGA ACAAC 15 15 base pairs nucleic acid single linear unknown 1623 CUCCUGUAGA CGUGU 15 15 base pairs nucleic acid single linear unknown 1624 CUCCUGUAGA CGUGU 15 15 base pairs nucleic acid single linear unknown 1625 GACGUGUUCC AGAAC 15 15 base pairs nucleic acid single linear unknown 1626 CAGAACUUAC GGAAG 15 15 base pairs nucleic acid single linear unknown 1627 CAAUCCUUAU CUUUG 15 15 base pairs nucleic acid single linear unknown 1628 CAAUCCUUAU CUUUG 15 15 base pairs nucleic acid single linear unknown 1629 CAAUCCUUAU CUUUG 15 15 base pairs nucleic acid single linear unknown 1630 CAAUCCUUAU CUUUG 15 15 base pairs nucleic acid single linear unknown 1631 CAAUCCUUAU CUUUG 15 15 base pairs nucleic acid single linear unknown 1632 AAUCCUUAUC UUUGU 15 15 base pairs nucleic acid single linear unknown 1633 AAUCCUUAUC UUUGU 15 15 base pairs nucleic acid single linear unknown 1634 AAUCCUUAUC UUUGU 15 15 base pairs nucleic acid single linear unknown 1635 AAUCCUUAUC UUUGU 15 15 base pairs nucleic acid single linear unknown 1636 UCCUUAUCUU UGUGA 15 15 base pairs nucleic acid single linear unknown 1637 UCCUUAUCUU UGUGA 15 15 base pairs nucleic acid single linear unknown 1638 UCCUUAUCUU UGUGA 15 15 base pairs nucleic acid single linear unknown 1639 CUUAUCUUUG UGACA 15 15 base pairs nucleic acid single linear unknown 1640 UUAUCUUUGU GACAG 15 15 base pairs nucleic acid single linear unknown 1641 UUAUCUUUGU GACAG 15 15 base pairs nucleic acid single linear unknown 1642 UGACAGUCUU GCUGA 15 15 base pairs nucleic acid single linear unknown 1643 ACAGUCUUGC UGAUC 15 15 base pairs nucleic acid single linear unknown 1644 ACAGUCUUGC UGAUC 15 15 base pairs nucleic acid single linear unknown 1645 UGCUGAUCUC AGAUG 15 15 base pairs nucleic acid single linear unknown 1646 UGCUGAUCUC AGAUG 15 15 base pairs nucleic acid single linear unknown 1647 UGCUGAUCUC AGAUG 15 15 base pairs nucleic acid single linear unknown 1648 UGCUGAUCUC AGAUG 15 15 base pairs nucleic acid single linear unknown 1649 CUGAUCUCAG AUGCU 15 15 base pairs nucleic acid single linear unknown 1650 CUGAUCUCAG AUGCU 15 15 base pairs nucleic acid single linear unknown 1651 AUGCUGUUUC CGUGG 15 15 base pairs nucleic acid single linear unknown 1652 UGCUGUUUCC GUGGA 15 15 base pairs nucleic acid single linear unknown 1653 GCUGUUUCCG UGGAG 15 15 base pairs nucleic acid single linear unknown 1654 GCAAGCUUAU UUCAA 15 15 base pairs nucleic acid single linear unknown 1655 GCAAGCUUAU UUCAA 15 15 base pairs nucleic acid single linear unknown 1656 GCAAGCUUAU UUCAA 15 15 base pairs nucleic acid single linear unknown 1657 CAAGCUUAUU UCAAU 15 15 base pairs nucleic acid single linear unknown 1658 CAAGCUUAUU UCAAU 15 15 base pairs nucleic acid single linear unknown 1659 AGCUUAUUUC AAUGG 15 15 base pairs nucleic acid single linear unknown 1660 AGCUUAUUUC AAUGG 15 15 base pairs nucleic acid single linear unknown 1661 GCUUAUUUCA AUGGG 15 15 base pairs nucleic acid single linear unknown 1662 GCUUAUUUCA AUGGG 15 15 base pairs nucleic acid single linear unknown 1663 CUUAUUUCAA UGGGA 15 15 base pairs nucleic acid single linear unknown 1664 CUUAUUUCAA UGGGA 15 15 base pairs nucleic acid single linear unknown 1665 ACUGCAUAUC UGCCG 15 15 base pairs nucleic acid single linear unknown 1666 UGCAUAUCUG CCGUG 15 15 base pairs nucleic acid single linear unknown 1667 UGCCCAUUUA CAAAG 15 15 base pairs nucleic acid single linear unknown 1668 UGCCCAUUUA CAAAG 15 15 base pairs nucleic acid single linear unknown 1669 GCCCAUUUAC AAAGG 15 15 base pairs nucleic acid single linear unknown 1670 CCCAUUUACA AAGGC 15 15 base pairs nucleic acid single linear unknown 1671 CCCAUUUACA AAGGC 15 15 base pairs nucleic acid single linear unknown 1672 AAAACAUAAG CCUGA 15 15 base pairs nucleic acid single linear unknown 1673 AGCUGGUAGU AUUUU 15 15 base pairs nucleic acid single linear unknown 1674 AGCUGGUAGU AUUUU 15 15 base pairs nucleic acid single linear unknown 1675 UGGUAGUAUU UUGGC 15 15 base pairs nucleic acid single linear unknown 1676 UGGUAGUAUU UUGGC 15 15 base pairs nucleic acid single linear unknown 1677 GUAGUAUUUU GGCAG 15 15 base pairs nucleic acid single linear unknown 1678 GUAGUAUUUU GGCAG 15 15 base pairs nucleic acid single linear unknown 1679 UAGUAUUUUG GCAGG 15 15 base pairs nucleic acid single linear unknown 1680 UAGUAUUUUG GCAGG 15 15 base pairs nucleic acid single linear unknown 1681 UAGUAUUUUG GCAGG 15 15 base pairs nucleic acid single linear unknown 1682 AGUAUUUUGG CAGGA 15 15 base pairs nucleic acid single linear unknown 1683 AGUAUUUUGG CAGGA 15 15 base pairs nucleic acid single linear unknown 1684 CAAAAGUUGG UUCUG 15 15 base pairs nucleic acid single linear unknown 1685 CAAAAGUUGG UUCUG 15 15 base pairs nucleic acid single linear unknown 1686 AGUUGGUUCU GUACG 15 15 base pairs nucleic acid single linear unknown 1687 GUUGGUUCUG UACGA 15 15 base pairs nucleic acid single linear unknown 1688 GUUCUGUACG AGCAC 15 15 base pairs nucleic acid single linear unknown 1689 GAGCACUAUU UGGGC 15 15 base pairs nucleic acid single linear unknown 1690 CACUAUUUGG GCACA 15 15 base pairs nucleic acid single linear unknown 1691 AGAAACUUGA UAGUG 15 15 base pairs nucleic acid single linear unknown 1692 GCCAAGUACC UGGGC 15 15 base pairs nucleic acid single linear unknown 1693 GCCAAGUACC UGGGC 15 15 base pairs nucleic acid single linear unknown 1694 ACGAGCUUUG ACAGG 15 15 base pairs nucleic acid single linear unknown 1695 CUGGACUCUA CGACU 15 15 base pairs nucleic acid single linear unknown 1696 GGACUCUACG ACUUC 15 15 base pairs nucleic acid single linear unknown 1697 GGACUCUACG ACUUC 15 15 base pairs nucleic acid single linear unknown 1698 UACGACUUCA CAAUG 15 15 base pairs nucleic acid single linear unknown 1699 UACGACUUCA CAAUG 15 15 base pairs nucleic acid single linear unknown 1700 ACGACUUCAC AAUGU 15 15 base pairs nucleic acid single linear unknown 1701 ACGACUUCAC AAUGU 15 15 base pairs nucleic acid single linear unknown 1702 ACAAUGUUCA GAUCA 15 15 base pairs nucleic acid single linear unknown 1703 ACAAUGUUCA GAUCA 15 15 base pairs nucleic acid single linear unknown 1704 ACAAUGUUCA GAUCA 15 15 base pairs nucleic acid single linear unknown 1705 CAAUGUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1706 CAAUGUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1707 CAAUGUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1708 CAAUGUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1709 CAAUGUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1710 CAAUGUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1711 CAAUGUUCAG AUCAA 15 15 base pairs nucleic acid single linear unknown 1712 UUCAGAUCAA GGACA 15 15 base pairs nucleic acid single linear unknown 1713 UUCAGAUCAA GGACA 15 15 base pairs nucleic acid single linear unknown 1714 AUGGGCUCGU AUGAU 15 15 base pairs nucleic acid single linear unknown 1715 AUGGGCUCGU AUGAU 15 15 base pairs nucleic acid single linear unknown 1716 AUGGGCUCGU AUGAU 15 15 base pairs nucleic acid single linear unknown 1717 GGCUCGUAUG AUUGU 15 15 base pairs nucleic acid single linear unknown 1718 GGCUCGUAUG AUUGU 15 15 base pairs nucleic acid single linear unknown 1719 UGAUUGUUUU AUACA 15 15 base pairs nucleic acid single linear unknown 1720 UGAUUGUUUU AUACA 15 15 base pairs nucleic acid single linear unknown 1721 AUUGUUUUAU ACAAA 15 15 base pairs nucleic acid single linear unknown 1722 AUUGUUUUAU ACAAA 15 15 base pairs nucleic acid single linear unknown 1723 UUGUUUUAUA CAAAA 15 15 base pairs nucleic acid single linear unknown 1724 UUGUUUUAUA CAAAA 15 15 base pairs nucleic acid single linear unknown 1725 UUGUUUUAUA CAAAA 15 15 base pairs nucleic acid single linear unknown 1726 GAUCAAUUAU CCUCC 15 15 base pairs nucleic acid single linear unknown 1727 AUCAAUUAUC CUCCA 15 15 base pairs nucleic acid single linear unknown 1728 CAAUUAUCCU CCAAC 15 15 base pairs nucleic acid single linear unknown 1729 UUAUCCUCCA ACAGA 15 15 base pairs nucleic acid single linear unknown 1730 UUAUCCUCCA ACAGA 15 15 base pairs nucleic acid single linear unknown 1731 UUAUCCUCCA ACAGA 15 15 base pairs nucleic acid single linear unknown 1732 UUAUCCUCCA ACAGA 15 15 base pairs nucleic acid single linear unknown 1733 GAACUGUCAG UGAUC 15 15 base pairs nucleic acid single linear unknown 1734 CAGUGAUCGC CAACU 15 15 base pairs nucleic acid single linear unknown 1735 GCCAACUUCA GUGAA 15 15 base pairs nucleic acid single linear unknown 1736 CCAACUUCAG UGAAC 15 15 base pairs nucleic acid single linear unknown 1737 CCAACUUCAG UGAAC 15 15 base pairs nucleic acid single linear unknown 1738 CUGAAAUAAA ACUGG 15 15 base pairs nucleic acid single linear unknown 1739 ACUGGCUCAG AAUGU 15 15 base pairs nucleic acid single linear unknown 1740 AGAAUGUAAC AGGAA 15 15 base pairs nucleic acid single linear unknown 1741 GGAAAUUCUG GCAUA 15 15 base pairs nucleic acid single linear unknown 1742 GGAAAUUCUG GCAUA 15 15 base pairs nucleic acid single linear unknown 1743 CUGGCAUAAA UUUGA 15 15 base pairs nucleic acid single linear unknown 1744 CAUAAAUUUG ACCUG 15 15 base pairs nucleic acid single linear unknown 1745 AUAAAUUUGA CCUGC 15 15 base pairs nucleic acid single linear unknown 1746 CACGUCUAAG CAAGG 15 15 base pairs nucleic acid single linear unknown 1747 GCAAGGUCAC CCGAA 15 15 base pairs nucleic acid single linear unknown 1748 GAAACCUAAG AAGAU 15 15 base pairs nucleic acid single linear unknown 1749 AAGAUGUAUU UUCUG 15 15 base pairs nucleic acid single linear unknown 1750 UGUAUUUUCU GAUAA 15 15 base pairs nucleic acid single linear unknown 1751 ACUAAUUCAA CUAAU 15 15 base pairs nucleic acid single linear unknown 1752 UUCAACUAAU GAGUA 15 15 base pairs nucleic acid single linear unknown 1753 UUCAACUAAU GAGUA 15 15 base pairs nucleic acid single linear unknown 1754 AAUGAGUAUG GUGAU 15 15 base pairs nucleic acid single linear unknown 1755 UGCAGAUAUC ACAAG 15 15 base pairs nucleic acid single linear unknown 1756 CAGAUAUCAC AAGAU 15 15 base pairs nucleic acid single linear unknown 1757 CAGAUAUCAC AAGAU 15 15 base pairs nucleic acid single linear unknown 1758 CAGAUAUCAC AAGAU 15 15 base pairs nucleic acid single linear unknown 1759 CAGAUAUCAC AAGAU 15 15 base pairs nucleic acid single linear unknown 1760 ACAAGAUAAU GUCAC 15 15 base pairs nucleic acid single linear unknown 1761 ACAAGAUAAU GUCAC 15 15 base pairs nucleic acid single linear unknown 1762 AUAAUGUCAC AGAAC 15 15 base pairs nucleic acid single linear unknown 1763 AUAAUGUCAC AGAAC 15 15 base pairs nucleic acid single linear unknown 1764 AUAAUGUCAC AGAAC 15 15 base pairs nucleic acid single linear unknown 1765 GAACUGUUCA GUAUC 15 15 base pairs nucleic acid single linear unknown 1766 AACUGUUCAG UAUCU 15 15 base pairs nucleic acid single linear unknown 1767 AACUGUUCAG UAUCU 15 15 base pairs nucleic acid single linear unknown 1768 AGUAUCUCCA ACAGC 15 15 base pairs nucleic acid single linear unknown 1769 AGUAUCUCCA ACAGC 15 15 base pairs nucleic acid single linear unknown 1770 AGUAUCUCCA ACAGC 15 15 base pairs nucleic acid single linear unknown 1771 ACAGCCUCUC UCUUU 15 15 base pairs nucleic acid single linear unknown 1772 ACAGCCUCUC UCUUU 15 15 base pairs nucleic acid single linear unknown 1773 AGCCUCUCUC UUUCA 15 15 base pairs nucleic acid single linear unknown 1774 AGCCUCUCUC UUUCA 15 15 base pairs nucleic acid single linear unknown 1775 UCUCUCUUUC AUUCC 15 15 base pairs nucleic acid single linear unknown 1776 UCUCUCUUUC AUUCC 15 15 base pairs nucleic acid single linear unknown 1777 CUCUCUUUCA UUCCC 15 15 base pairs nucleic acid single linear unknown 1778 UCUCUUUCAU UCCCG 15 15 base pairs nucleic acid single linear unknown 1779 UCUCUUUCAU UCCCG 15 15 base pairs nucleic acid single linear unknown 1780 UCUCUUUCAU UCCCG 15 15 base pairs nucleic acid single linear unknown 1781 CUUUCAUUCC CGGAU 15 15 base pairs nucleic acid single linear unknown 1782 CUUUCAUUCC CGGAU 15 15 base pairs nucleic acid single linear unknown 1783 CUUUCAUUCC CGGAU 15 15 base pairs nucleic acid single linear unknown 1784 CUUUCAUUCC CGGAU 15 15 base pairs nucleic acid single linear unknown 1785 CUUUCAUUCC CGGAU 15 15 base pairs nucleic acid single linear unknown 1786 UUUCAUUCCC GGAUG 15 15 base pairs nucleic acid single linear unknown 1787 UUUCAUUCCC GGAUG 15 15 base pairs nucleic acid single linear unknown 1788 GUGGCAUAUG ACCGU 15 15 base pairs nucleic acid single linear unknown 1789 GUGGCAUAUG ACCGU 15 15 base pairs nucleic acid single linear unknown 1790 UGACCGUUGU GUGUG 15 15 base pairs nucleic acid single linear unknown 1791 UGUGUGUUCU GGAAA 15 15 base pairs nucleic acid single linear unknown 1792 UGUGUGUUCU GGAAA 15 15 base pairs nucleic acid single linear unknown 1793 GUGUGUUCUG GAAAC 15 15 base pairs nucleic acid single linear unknown 1794 GUGUGUUCUG GAAAC 15 15 base pairs nucleic acid single linear unknown 1795 UGAAGAUUUC CUCCA 15 15 base pairs nucleic acid single linear unknown 1796 AUUUCCUCCA AACCU 15 15 base pairs nucleic acid single linear unknown 1797 AACCUCUCAA UUUCA 15 15 base pairs nucleic acid single linear unknown 1798 UUUCACUCAA GAGUU 15 15 base pairs nucleic acid single linear unknown 1799 CAAGAGUUUC CAUCU 15 15 base pairs nucleic acid single linear unknown 1800 CAAGAGUUUC CAUCU 15 15 base pairs nucleic acid single linear unknown 1801 AAGAGUUUCC AUCUC 15 15 base pairs nucleic acid single linear unknown 1802 UUUCCAUCUC CUCAA 15 15 base pairs nucleic acid single linear unknown 1803 UUUCCAUCUC CUCAA 15 15 base pairs nucleic acid single linear unknown 1804 UCCAUCUCCU CAAAC 15 15 base pairs nucleic acid single linear unknown 1805 AGGAGAUUAC AGCUU 15 15 base pairs nucleic acid single linear unknown 1806 AGGAGAUUAC AGCUU 15 15 base pairs nucleic acid single linear unknown 1807 GGAGAUUACA GCUUC 15 15 base pairs nucleic acid single linear unknown 1808 CUUCAGUUAC UGUGG 15 15 base pairs nucleic acid single linear unknown 1809 UGGCCCUCCU CCUUG 15 15 base pairs nucleic acid single linear unknown 1810 UGGCCCUCCU CCUUG 15 15 base pairs nucleic acid single linear unknown 1811 UGCUGCUCAU CAUUG 15 15 base pairs nucleic acid single linear unknown 1812 GCGGGAUAGU AACGC 15 15 base pairs nucleic acid single linear unknown 1813 AGACUAUCAA CCUGA 15 15 base pairs nucleic acid single linear unknown 1814 AGGAACUUGA ACCCC 15 15 base pairs nucleic acid single linear unknown 1815 AUUGCUUCAG CAAAA 15 15 base pairs nucleic acid single linear unknown 1816 AAAGAGUUAA AAAUU 15 15 base pairs nucleic acid single linear unknown 1817 AAGAGUUAAA AAUUG 15 15 base pairs nucleic acid single linear unknown 1818 UAAAAAUUGC UUUGC 15 15 base pairs nucleic acid single linear unknown 1819 CAGAGUUUCU CAGAA 15 15 base pairs nucleic acid single linear unknown 1820 AGUUUCUCAG AAUUC 15 15 base pairs nucleic acid single linear unknown 1821 UCAGAAUUCA AAAAU 15 15 base pairs nucleic acid single linear unknown 1822 UCAGAAUUCA AAAAU 15 15 base pairs nucleic acid single linear unknown 1823 UCAGAAUUCA AAAAU 15 15 base pairs nucleic acid single linear unknown 1824 AAAAUGUUCU CAGCU 15 15 base pairs nucleic acid single linear unknown 1825 AAAUGUUCUC AGCUG 15 15 base pairs nucleic acid single linear unknown 1826 UUGGAAUUCU ACAGU 15 15 base pairs nucleic acid single linear unknown 1827 UUGGAAUUCU ACAGU 15 15 base pairs nucleic acid single linear unknown 1828 GAAUUCUACA GUUGA 15 15 base pairs nucleic acid single linear unknown 1829 GAAUUCUACA GUUGA 15 15 base pairs nucleic acid single linear unknown 1830 GUUGAAUAAU UAAAG 15 15 base pairs nucleic acid single linear unknown 1831 GAAUAAUUAA AGAAC 15 15 base pairs nucleic acid single linear unknown 1832 AAUAAUUAAA GAACA 15 36 base pairs nucleic acid single linear unknown 1833 GUUGUUCCUG AUGAGGCCGA AAGGCCGAAA GUCCGU 36 36 base pairs nucleic acid single linear unknown 1834 GUUGUUCCUG AUGAGGCCGA AAGGCCGAAA GUCCGU 36 36 base pairs nucleic acid single linear unknown 1835 ACACGUCCUG AUGAGGCCGA AAGGCCGAAA CAGGAG 36 36 base pairs nucleic acid single linear unknown 1836 ACACGUCCUG AUGAGGCCGA AAGGCCGAAA CAGGAG 36 36 base pairs nucleic acid single linear unknown 1837 GUUCUGGCUG AUGAGGCCGA AAGGCCGAAA CACGUC 36 36 base pairs nucleic acid single linear unknown 1838 CUUCCGUCUG AUGAGGCCGA AAGGCCGAAA GUUCUG 36 36 base pairs nucleic acid single linear unknown 1839 CAAAGAUCUG AUGAGGCCGA AAGGCCGAAA GGAUUG 36 36 base pairs nucleic acid single linear unknown 1840 CAAAGAUCUG AUGAGGCCGA AAGGCCGAAA GGAUUG 36 36 base pairs nucleic acid single linear unknown 1841 CAAAGAUCUG AUGAGGCCGA AAGGCCGAAA GGAUUG 36 36 base pairs nucleic acid single linear unknown 1842 CAAAGAUCUG AUGAGGCCGA AAGGCCGAAA GGAUUG 36 36 base pairs nucleic acid single linear unknown 1843 CAAAGAUCUG AUGAGGCCGA AAGGCCGAAA GGAUUG 36 36 base pairs nucleic acid single linear unknown 1844 ACAAAGACUG AUGAGGCCGA AAGGCCGAAA AGGAUU 36 36 base pairs nucleic acid single linear unknown 1845 ACAAAGACUG AUGAGGCCGA AAGGCCGAAA AGGAUU 36 36 base pairs nucleic acid single linear unknown 1846 ACAAAGACUG AUGAGGCCGA AAGGCCGAAA AGGAUU 36 36 base pairs nucleic acid single linear unknown 1847 ACAAAGACUG AUGAGGCCGA AAGGCCGAAA AGGAUU 36 36 base pairs nucleic acid single linear unknown 1848 UCACAAACUG AUGAGGCCGA AAGGCCGAAA UAAGGA 36 36 base pairs nucleic acid single linear unknown 1849 UCACAAACUG AUGAGGCCGA AAGGCCGAAA UAAGGA 36 36 base pairs nucleic acid single linear unknown 1850 UCACAAACUG AUGAGGCCGA AAGGCCGAAA UAAGGA 36 36 base pairs nucleic acid single linear unknown 1851 UGUCACACUG AUGAGGCCGA AAGGCCGAAA GAUAAG 36 36 base pairs nucleic acid single linear unknown 1852 CUGUCACCUG AUGAGGCCGA AAGGCCGAAA AGAUAA 36 36 base pairs nucleic acid single linear unknown 1853 CUGUCACCUG AUGAGGCCGA AAGGCCGAAA AGAUAA 36 36 base pairs nucleic acid single linear unknown 1854 UCAGCAACUG AUGAGGCCGA AAGGCCGAAA CUGUCA 36 36 base pairs nucleic acid single linear unknown 1855 GAUCAGCCUG AUGAGGCCGA AAGGCCGAAA GACUGU 36 36 base pairs nucleic acid single linear unknown 1856 GAUCAGCCUG AUGAGGCCGA AAGGCCGAAA GACUGU 36 36 base pairs nucleic acid single linear unknown 1857 CAUCUGACUG AUGAGGCCGA AAGGCCGAAA UCAGCA 36 36 base pairs nucleic acid single linear unknown 1858 CAUCUGACUG AUGAGGCCGA AAGGCCGAAA UCAGCA 36 36 base pairs nucleic acid single linear unknown 1859 CAUCUGACUG AUGAGGCCGA AAGGCCGAAA UCAGCA 36 36 base pairs nucleic acid single linear unknown 1860 CAUCUGACUG AUGAGGCCGA AAGGCCGAAA UCAGCA 36 36 base pairs nucleic acid single linear unknown 1861 AGCAUCUCUG AUGAGGCCGA AAGGCCGAAA GAUCAG 36 36 base pairs nucleic acid single linear unknown 1862 AGCAUCUCUG AUGAGGCCGA AAGGCCGAAA GAUCAG 36 36 base pairs nucleic acid single linear unknown 1863 CCACGGACUG AUGAGGCCGA AAGGCCGAAA CAGCAU 36 36 base pairs nucleic acid single linear unknown 1864 UCCACGGCUG AUGAGGCCGA AAGGCCGAAA ACAGCA 36 36 base pairs nucleic acid single linear unknown 1865 CUCCACGCUG AUGAGGCCGA AAGGCCGAAA AACAGC 36 36 base pairs nucleic acid single linear unknown 1866 UUGAAAUCUG AUGAGGCCGA AAGGCCGAAA GCUUGC 36 36 base pairs nucleic acid single linear unknown 1867 UUGAAAUCUG AUGAGGCCGA AAGGCCGAAA GCUUGC 36 36 base pairs nucleic acid single linear unknown 1868 UUGAAAUCUG AUGAGGCCGA AAGGCCGAAA GCUUGC 36 36 base pairs nucleic acid single linear unknown 1869 AUUGAAACUG AUGAGGCCGA AAGGCCGAAA AGCUUG 36 36 base pairs nucleic acid single linear unknown 1870 AUUGAAACUG AUGAGGCCGA AAGGCCGAAA AGCUUG 36 36 base pairs nucleic acid single linear unknown 1871 CCAUUGACUG AUGAGGCCGA AAGGCCGAAA UAAGCU 36 36 base pairs nucleic acid single linear unknown 1872 CCAUUGACUG AUGAGGCCGA AAGGCCGAAA UAAGCU 36 36 base pairs nucleic acid single linear unknown 1873 CCCAUUGCUG AUGAGGCCGA AAGGCCGAAA AUAAGC 36 36 base pairs nucleic acid single linear unknown 1874 CCCAUUGCUG AUGAGGCCGA AAGGCCGAAA AUAAGC 36 36 base pairs nucleic acid single linear unknown 1875 UCCCAUUCUG AUGAGGCCGA AAGGCCGAAA AAUAAG 36 36 base pairs nucleic acid single linear unknown 1876 UCCCAUUCUG AUGAGGCCGA AAGGCCGAAA AAUAAG 36 36 base pairs nucleic acid single linear unknown 1877 CGGCAGACUG AUGAGGCCGA AAGGCCGAAA UGCAGU 36 36 base pairs nucleic acid single linear unknown 1878 CACGGCACUG AUGAGGCCGA AAGGCCGAAA UAUGCA 36 36 base pairs nucleic acid single linear unknown 1879 CUUUGUACUG AUGAGGCCGA AAGGCCGAAA UGGGCA 36 36 base pairs nucleic acid single linear unknown 1880 CUUUGUACUG AUGAGGCCGA AAGGCCGAAA UGGGCA 36 36 base pairs nucleic acid single linear unknown 1881 CCUUUGUCUG AUGAGGCCGA AAGGCCGAAA AUGGGC 36 36 base pairs nucleic acid single linear unknown 1882 GCCUUUGCUG AUGAGGCCGA AAGGCCGAAA AAUGGG 36 36 base pairs nucleic acid single linear unknown 1883 GCCUUUGCUG AUGAGGCCGA AAGGCCGAAA AAUGGG 36 36 base pairs nucleic acid single linear unknown 1884 UCAGGCUCUG AUGAGGCCGA AAGGCCGAAA UGUUUU 36 36 base pairs nucleic acid single linear unknown 1885 AAAAUACCUG AUGAGGCCGA AAGGCCGAAA CCAGCU 36 36 base pairs nucleic acid single linear unknown 1886 AAAAUACCUG AUGAGGCCGA AAGGCCGAAA CCAGCU 36 36 base pairs nucleic acid single linear unknown 1887 GCCAAAACUG AUGAGGCCGA AAGGCCGAAA CUACCA 36 36 base pairs nucleic acid single linear unknown 1888 GCCAAAACUG AUGAGGCCGA AAGGCCGAAA CUACCA 36 36 base pairs nucleic acid single linear unknown 1889 CUGCCAACUG AUGAGGCCGA AAGGCCGAAA UACUAC 36 36 base pairs nucleic acid single linear unknown 1890 CUGCCAACUG AUGAGGCCGA AAGGCCGAAA UACUAC 36 36 base pairs nucleic acid single linear unknown 1891 CCUGCCACUG AUGAGGCCGA AAGGCCGAAA AUACUA 36 36 base pairs nucleic acid single linear unknown 1892 CCUGCCACUG AUGAGGCCGA AAGGCCGAAA AUACUA 36 36 base pairs nucleic acid single linear unknown 1893 CCUGCCACUG AUGAGGCCGA AAGGCCGAAA AUACUA 36 36 base pairs nucleic acid single linear unknown 1894 UCCUGCCCUG AUGAGGCCGA AAGGCCGAAA AAUACU 36 36 base pairs nucleic acid single linear unknown 1895 UCCUGCCCUG AUGAGGCCGA AAGGCCGAAA AAUACU 36 36 base pairs nucleic acid single linear unknown 1896 CAGAACCCUG AUGAGGCCGA AAGGCCGAAA CUUUUG 36 36 base pairs nucleic acid single linear unknown 1897 CAGAACCCUG AUGAGGCCGA AAGGCCGAAA CUUUUG 36 36 base pairs nucleic acid single linear unknown 1898 CGUACAGCUG AUGAGGCCGA AAGGCCGAAA CCAACU 36 36 base pairs nucleic acid single linear unknown 1899 UCGUACACUG AUGAGGCCGA AAGGCCGAAA ACCAAC 36 36 base pairs nucleic acid single linear unknown 1900 GUGCUCGCUG AUGAGGCCGA AAGGCCGAAA CAGAAC 36 36 base pairs nucleic acid single linear unknown 1901 GCCCAAACUG AUGAGGCCGA AAGGCCGAAA GUGCUC 36 36 base pairs nucleic acid single linear unknown 1902 UGUGCCCCUG AUGAGGCCGA AAGGCCGAAA AUAGUG 36 36 base pairs nucleic acid single linear unknown 1903 CACUAUCCUG AUGAGGCCGA AAGGCCGAAA GUUUCU 36 36 base pairs nucleic acid single linear unknown 1904 GCCCAGGCUG AUGAGGCCGA AAGGCCGAAA CUUGGC 36 36 base pairs nucleic acid single linear unknown 1905 GCCCAGGCUG AUGAGGCCGA AAGGCCGAAA CUUGGC 36 36 base pairs nucleic acid single linear unknown 1906 CCUGUCACUG AUGAGGCCGA AAGGCCGAAA GCUCGU 36 36 base pairs nucleic acid single linear unknown 1907 AGUCGUACUG AUGAGGCCGA AAGGCCGAAA GUCCAG 36 36 base pairs nucleic acid single linear unknown 1908 GAAGUCGCUG AUGAGGCCGA AAGGCCGAAA GAGUCC 36 36 base pairs nucleic acid single linear unknown 1909 GAAGUCGCUG AUGAGGCCGA AAGGCCGAAA GAGUCC 36 36 base pairs nucleic acid single linear unknown 1910 CAUUGUGCUG AUGAGGCCGA AAGGCCGAAA GUCGUA 36 36 base pairs nucleic acid single linear unknown 1911 CAUUGUGCUG AUGAGGCCGA AAGGCCGAAA GUCGUA 36 36 base pairs nucleic acid single linear unknown 1912 ACAUUGUCUG AUGAGGCCGA AAGGCCGAAA AGUCGU 36 36 base pairs nucleic acid single linear unknown 1913 ACAUUGUCUG AUGAGGCCGA AAGGCCGAAA AGUCGU 36 36 base pairs nucleic acid single linear unknown 1914 UGAUCUGCUG AUGAGGCCGA AAGGCCGAAA CAUUGU 36 36 base pairs nucleic acid single linear unknown 1915 UGAUCUGCUG AUGAGGCCGA AAGGCCGAAA CAUUGU 36 36 base pairs nucleic acid single linear unknown 1916 UGAUCUGCUG AUGAGGCCGA AAGGCCGAAA CAUUGU 36 36 base pairs nucleic acid single linear unknown 1917 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 1918 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 1919 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 1920 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 1921 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 1922 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 1923 UUGAUCUCUG AUGAGGCCGA AAGGCCGAAA ACAUUG 36 36 base pairs nucleic acid single linear unknown 1924 UGUCCUUCUG AUGAGGCCGA AAGGCCGAAA UCUGAA 36 36 base pairs nucleic acid single linear unknown 1925 UGUCCUUCUG AUGAGGCCGA AAGGCCGAAA UCUGAA 36 36 base pairs nucleic acid single linear unknown 1926 AUCAUACCUG AUGAGGCCGA AAGGCCGAAA GCCCAU 36 36 base pairs nucleic acid single linear unknown 1927 AUCAUACCUG AUGAGGCCGA AAGGCCGAAA GCCCAU 36 36 base pairs nucleic acid single linear unknown 1928 AUCAUACCUG AUGAGGCCGA AAGGCCGAAA GCCCAU 36 36 base pairs nucleic acid single linear unknown 1929 ACAAUCACUG AUGAGGCCGA AAGGCCGAAA CGAGCC 36 36 base pairs nucleic acid single linear unknown 1930 ACAAUCACUG AUGAGGCCGA AAGGCCGAAA CGAGCC 36 36 base pairs nucleic acid single linear unknown 1931 UGUAUAACUG AUGAGGCCGA AAGGCCGAAA CAAUCA 36 36 base pairs nucleic acid single linear unknown 1932 UGUAUAACUG AUGAGGCCGA AAGGCCGAAA CAAUCA 36 36 base pairs nucleic acid single linear unknown 1933 UUUGUAUCUG AUGAGGCCGA AAGGCCGAAA AACAAU 36 36 base pairs nucleic acid single linear unknown 1934 UUUGUAUCUG AUGAGGCCGA AAGGCCGAAA AACAAU 36 36 base pairs nucleic acid single linear unknown 1935 UUUUGUACUG AUGAGGCCGA AAGGCCGAAA AAACAA 36 36 base pairs nucleic acid single linear unknown 1936 UUUUGUACUG AUGAGGCCGA AAGGCCGAAA AAACAA 36 36 base pairs nucleic acid single linear unknown 1937 UUUUGUACUG AUGAGGCCGA AAGGCCGAAA AAACAA 36 36 base pairs nucleic acid single linear unknown 1938 GGAGGAUCUG AUGAGGCCGA AAGGCCGAAA UUGAUC 36 36 base pairs nucleic acid single linear unknown 1939 UGGAGGACUG AUGAGGCCGA AAGGCCGAAA AUUGAU 36 36 base pairs nucleic acid single linear unknown 1940 GUUGGAGCUG AUGAGGCCGA AAGGCCGAAA UAAUUG 36 36 base pairs nucleic acid single linear unknown 1941 UCUGUUGCUG AUGAGGCCGA AAGGCCGAAA GGAUAA 36 36 base pairs nucleic acid single linear unknown 1942 UCUGUUGCUG AUGAGGCCGA AAGGCCGAAA GGAUAA 36 36 base pairs nucleic acid single linear unknown 1943 UCUGUUGCUG AUGAGGCCGA AAGGCCGAAA GGAUAA 36 36 base pairs nucleic acid single linear unknown 1944 UCUGUUGCUG AUGAGGCCGA AAGGCCGAAA GGAUAA 36 36 base pairs nucleic acid single linear unknown 1945 GAUCACUCUG AUGAGGCCGA AAGGCCGAAA CAGUUC 36 36 base pairs nucleic acid single linear unknown 1946 AGUUGGCCUG AUGAGGCCGA AAGGCCGAAA UCACUG 36 36 base pairs nucleic acid single linear unknown 1947 UUCACUGCUG AUGAGGCCGA AAGGCCGAAA GUUGGC 36 36 base pairs nucleic acid single linear unknown 1948 GUUCACUCUG AUGAGGCCGA AAGGCCGAAA AGUUGG 36 36 base pairs nucleic acid single linear unknown 1949 GUUCACUCUG AUGAGGCCGA AAGGCCGAAA AGUUGG 36 36 base pairs nucleic acid single linear unknown 1950 CCAGUUUCUG AUGAGGCCGA AAGGCCGAAA UUUCAG 36 36 base pairs nucleic acid single linear unknown 1951 ACAUUCUCUG AUGAGGCCGA AAGGCCGAAA GCCAGU 36 36 base pairs nucleic acid single linear unknown 1952 UUCCUGUCUG AUGAGGCCGA AAGGCCGAAA CAUUCU 36 36 base pairs nucleic acid single linear unknown 1953 UAUGCCACUG AUGAGGCCGA AAGGCCGAAA AUUUCC 36 36 base pairs nucleic acid single linear unknown 1954 UAUGCCACUG AUGAGGCCGA AAGGCCGAAA AUUUCC 36 36 base pairs nucleic acid single linear unknown 1955 UCAAAUUCUG AUGAGGCCGA AAGGCCGAAA UGCCAG 36 36 base pairs nucleic acid single linear unknown 1956 CAGGUCACUG AUGAGGCCGA AAGGCCGAAA UUUAUG 36 36 base pairs nucleic acid single linear unknown 1957 GCAGGUCCUG AUGAGGCCGA AAGGCCGAAA AUUUAU 36 36 base pairs nucleic acid single linear unknown 1958 CCUUGCUCUG AUGAGGCCGA AAGGCCGAAA GACGUG 36 36 base pairs nucleic acid single linear unknown 1959 UUCGGGUCUG AUGAGGCCGA AAGGCCGAAA CCUUGC 36 36 base pairs nucleic acid single linear unknown 1960 AUCUUCUCUG AUGAGGCCGA AAGGCCGAAA GGUUUC 36 36 base pairs nucleic acid single linear unknown 1961 CAGAAAACUG AUGAGGCCGA AAGGCCGAAA CAUCUU 36 36 base pairs nucleic acid single linear unknown 1962 UUAUCAGCUG AUGAGGCCGA AAGGCCGAAA AAUACA 36 36 base pairs nucleic acid single linear unknown 1963 AUUAGUUCUG AUGAGGCCGA AAGGCCGAAA AUUAGU 36 36 base pairs nucleic acid single linear unknown 1964 UACUCAUCUG AUGAGGCCGA AAGGCCGAAA GUUGAA 36 36 base pairs nucleic acid single linear unknown 1965 UACUCAUCUG AUGAGGCCGA AAGGCCGAAA GUUGAA 36 36 base pairs nucleic acid single linear unknown 1966 AUCACCACUG AUGAGGCCGA AAGGCCGAAA CUCAUU 36 36 base pairs nucleic acid single linear unknown 1967 CUUGUGACUG AUGAGGCCGA AAGGCCGAAA UCUGCA 36 36 base pairs nucleic acid single linear unknown 1968 AUCUUGUCUG AUGAGGCCGA AAGGCCGAAA UAUCUG 36 36 base pairs nucleic acid single linear unknown 1969 AUCUUGUCUG AUGAGGCCGA AAGGCCGAAA UAUCUG 36 36 base pairs nucleic acid single linear unknown 1970 AUCUUGUCUG AUGAGGCCGA AAGGCCGAAA UAUCUG 36 36 base pairs nucleic acid single linear unknown 1971 AUCUUGUCUG AUGAGGCCGA AAGGCCGAAA UAUCUG 36 36 base pairs nucleic acid single linear unknown 1972 GUGACAUCUG AUGAGGCCGA AAGGCCGAAA UCUUGU 36 36 base pairs nucleic acid single linear unknown 1973 GUGACAUCUG AUGAGGCCGA AAGGCCGAAA UCUUGU 36 36 base pairs nucleic acid single linear unknown 1974 GUUCUGUCUG AUGAGGCCGA AAGGCCGAAA CAUUAU 36 36 base pairs nucleic acid single linear unknown 1975 GUUCUGUCUG AUGAGGCCGA AAGGCCGAAA CAUUAU 36 36 base pairs nucleic acid single linear unknown 1976 GUUCUGUCUG AUGAGGCCGA AAGGCCGAAA CAUUAU 36 36 base pairs nucleic acid single linear unknown 1977 GAUACUGCUG AUGAGGCCGA AAGGCCGAAA CAGUUC 36 36 base pairs nucleic acid single linear unknown 1978 AGAUACUCUG AUGAGGCCGA AAGGCCGAAA ACAGUU 36 36 base pairs nucleic acid single linear unknown 1979 AGAUACUCUG AUGAGGCCGA AAGGCCGAAA ACAGUU 36 36 base pairs nucleic acid single linear unknown 1980 GCUGUUGCUG AUGAGGCCGA AAGGCCGAAA GAUACU 36 36 base pairs nucleic acid single linear unknown 1981 GCUGUUGCUG AUGAGGCCGA AAGGCCGAAA GAUACU 36 36 base pairs nucleic acid single linear unknown 1982 GCUGUUGCUG AUGAGGCCGA AAGGCCGAAA GAUACU 36 36 base pairs nucleic acid single linear unknown 1983 AAAGAGACUG AUGAGGCCGA AAGGCCGAAA GGCUGU 36 36 base pairs nucleic acid single linear unknown 1984 AAAGAGACUG AUGAGGCCGA AAGGCCGAAA GGCUGU 36 36 base pairs nucleic acid single linear unknown 1985 UGAAAGACUG AUGAGGCCGA AAGGCCGAAA GAGGCU 36 36 base pairs nucleic acid single linear unknown 1986 UGAAAGACUG AUGAGGCCGA AAGGCCGAAA GAGGCU 36 36 base pairs nucleic acid single linear unknown 1987 GGAAUGACUG AUGAGGCCGA AAGGCCGAAA GAGAGA 36 36 base pairs nucleic acid single linear unknown 1988 GGAAUGACUG AUGAGGCCGA AAGGCCGAAA GAGAGA 36 36 base pairs nucleic acid single linear unknown 1989 GGGAAUGCUG AUGAGGCCGA AAGGCCGAAA AGAGAG 36 36 base pairs nucleic acid single linear unknown 1990 CGGGAAUCUG AUGAGGCCGA AAGGCCGAAA AAGAGA 36 36 base pairs nucleic acid single linear unknown 1991 CGGGAAUCUG AUGAGGCCGA AAGGCCGAAA AAGAGA 36 36 base pairs nucleic acid single linear unknown 1992 CGGGAAUCUG AUGAGGCCGA AAGGCCGAAA AAGAGA 36 36 base pairs nucleic acid single linear unknown 1993 AUCCGGGCUG AUGAGGCCGA AAGGCCGAAA UGAAAG 36 36 base pairs nucleic acid single linear unknown 1994 AUCCGGGCUG AUGAGGCCGA AAGGCCGAAA UGAAAG 36 36 base pairs nucleic acid single linear unknown 1995 AUCCGGGCUG AUGAGGCCGA AAGGCCGAAA UGAAAG 36 36 base pairs nucleic acid single linear unknown 1996 AUCCGGGCUG AUGAGGCCGA AAGGCCGAAA UGAAAG 36 36 base pairs nucleic acid single linear unknown 1997 AUCCGGGCUG AUGAGGCCGA AAGGCCGAAA UGAAAG 36 36 base pairs nucleic acid single linear unknown 1998 CAUCCGGCUG AUGAGGCCGA AAGGCCGAAA AUGAAA 36 36 base pairs nucleic acid single linear unknown 1999 CAUCCGGCUG AUGAGGCCGA AAGGCCGAAA AUGAAA 36 36 base pairs nucleic acid single linear unknown 2000 ACGGUCACUG AUGAGGCCGA AAGGCCGAAA UGCCAC 36 36 base pairs nucleic acid single linear unknown 2001 ACGGUCACUG AUGAGGCCGA AAGGCCGAAA UGCCAC 36 36 base pairs nucleic acid single linear unknown 2002 CACACACCUG AUGAGGCCGA AAGGCCGAAA CGGUCA 36 36 base pairs nucleic acid single linear unknown 2003 UUUCCAGCUG AUGAGGCCGA AAGGCCGAAA CACACA 36 36 base pairs nucleic acid single linear unknown 2004 UUUCCAGCUG AUGAGGCCGA AAGGCCGAAA CACACA 36 36 base pairs nucleic acid single linear unknown 2005 GUUUCCACUG AUGAGGCCGA AAGGCCGAAA ACACAC 36 36 base pairs nucleic acid single linear unknown 2006 GUUUCCACUG AUGAGGCCGA AAGGCCGAAA ACACAC 36 36 base pairs nucleic acid single linear unknown 2007 UGGAGGACUG AUGAGGCCGA AAGGCCGAAA UCUUCA 36 36 base pairs nucleic acid single linear unknown 2008 AGGUUUGCUG AUGAGGCCGA AAGGCCGAAA GGAAAU 36 36 base pairs nucleic acid single linear unknown 2009 UGAAAUUCUG AUGAGGCCGA AAGGCCGAAA GAGGUU 36 36 base pairs nucleic acid single linear unknown 2010 AACUCUUCUG AUGAGGCCGA AAGGCCGAAA GUGAAA 36 36 base pairs nucleic acid single linear unknown 2011 AGAUGGACUG AUGAGGCCGA AAGGCCGAAA CUCUUG 36 36 base pairs nucleic acid single linear unknown 2012 AGAUGGACUG AUGAGGCCGA AAGGCCGAAA CUCUUG 36 36 base pairs nucleic acid single linear unknown 2013 GAGAUGGCUG AUGAGGCCGA AAGGCCGAAA ACUCUU 36 36 base pairs nucleic acid single linear unknown 2014 UUGAGGACUG AUGAGGCCGA AAGGCCGAAA UGGAAA 36 36 base pairs nucleic acid single linear unknown 2015 UUGAGGACUG AUGAGGCCGA AAGGCCGAAA UGGAAA 36 36 base pairs nucleic acid single linear unknown 2016 GUUUGAGCUG AUGAGGCCGA AAGGCCGAAA GAUGGA 36 36 base pairs nucleic acid single linear unknown 2017 AAGCUGUCUG AUGAGGCCGA AAGGCCGAAA UCUCCU 36 36 base pairs nucleic acid single linear unknown 2018 AAGCUGUCUG AUGAGGCCGA AAGGCCGAAA UCUCCU 36 36 base pairs nucleic acid single linear unknown 2019 GAAGCUGCUG AUGAGGCCGA AAGGCCGAAA AUCUCC 36 36 base pairs nucleic acid single linear unknown 2020 CCACAGUCUG AUGAGGCCGA AAGGCCGAAA CUGAAG 36 36 base pairs nucleic acid single linear unknown 2021 CAAGGAGCUG AUGAGGCCGA AAGGCCGAAA GGGCCA 36 36 base pairs nucleic acid single linear unknown 2022 CAAGGAGCUG AUGAGGCCGA AAGGCCGAAA GGGCCA 36 36 base pairs nucleic acid single linear unknown 2023 CAAUGAUCUG AUGAGGCCGA AAGGCCGAAA GCAGCA 36 36 base pairs nucleic acid single linear unknown 2024 GCGUUACCUG AUGAGGCCGA AAGGCCGAAA UCCCGC 36 36 base pairs nucleic acid single linear unknown 2025 UCAGGUUCUG AUGAGGCCGA AAGGCCGAAA UAGUCU 36 36 base pairs nucleic acid single linear unknown 2026 GGGGUUCCUG AUGAGGCCGA AAGGCCGAAA GUUCCU 36 36 base pairs nucleic acid single linear unknown 2027 UUUUGCUCUG AUGAGGCCGA AAGGCCGAAA AGCAAU 36 36 base pairs nucleic acid single linear unknown 2028 AAUUUUUCUG AUGAGGCCGA AAGGCCGAAA CUCUUU 36 36 base pairs nucleic acid single linear unknown 2029 CAAUUUUCUG AUGAGGCCGA AAGGCCGAAA ACUCUU 36 36 base pairs nucleic acid single linear unknown 2030 GCAAAGCCUG AUGAGGCCGA AAGGCCGAAA UUUUUA 36 36 base pairs nucleic acid single linear unknown 2031 UUCUGAGCUG AUGAGGCCGA AAGGCCGAAA ACUCUG 36 36 base pairs nucleic acid single linear unknown 2032 GAAUUCUCUG AUGAGGCCGA AAGGCCGAAA GAAACU 36 36 base pairs nucleic acid single linear unknown 2033 AUUUUUGCUG AUGAGGCCGA AAGGCCGAAA UUCUGA 36 36 base pairs nucleic acid single linear unknown 2034 AUUUUUGCUG AUGAGGCCGA AAGGCCGAAA UUCUGA 36 36 base pairs nucleic acid single linear unknown 2035 AUUUUUGCUG AUGAGGCCGA AAGGCCGAAA UUCUGA 36 36 base pairs nucleic acid single linear unknown 2036 AGCUGAGCUG AUGAGGCCGA AAGGCCGAAA CAUUUU 36 36 base pairs nucleic acid single linear unknown 2037 CAGCUGACUG AUGAGGCCGA AAGGCCGAAA ACAUUU 36 36 base pairs nucleic acid single linear unknown 2038 ACUGUAGCUG AUGAGGCCGA AAGGCCGAAA UUCCAA 36 36 base pairs nucleic acid single linear unknown 2039 ACUGUAGCUG AUGAGGCCGA AAGGCCGAAA UUCCAA 36 36 base pairs nucleic acid single linear unknown 2040 UCAACUGCUG AUGAGGCCGA AAGGCCGAAA GAAUUC 36 36 base pairs nucleic acid single linear unknown 2041 UCAACUGCUG AUGAGGCCGA AAGGCCGAAA GAAUUC 36 36 base pairs nucleic acid single linear unknown 2042 CUUUAAUCUG AUGAGGCCGA AAGGCCGAAA UUCAAC 36 36 base pairs nucleic acid single linear unknown 2043 GUUCUUUCUG AUGAGGCCGA AAGGCCGAAA UUAUUC 36 36 base pairs nucleic acid single linear unknown 2044 UGUUCUUCUG AUGAGGCCGA AAGGCCGAAA AUUAUU 36 15 base pairs nucleic acid single linear unknown 2045 CCUCGCUCGG GCGCC 15 15 base pairs nucleic acid single linear unknown 2046 CAGUGGUCCU GCCGC 15 15 base pairs nucleic acid single linear unknown 2047 GCCUGGUCUC ACCUC 15 15 base pairs nucleic acid single linear unknown 2048 CUGGUCUCAC CUCGC 15 15 base pairs nucleic acid single linear unknown 2049 CUCACCUCGC CAUGG 15 15 base pairs nucleic acid single linear unknown 2050 CCAUGGUUCG UCUGC 15 15 base pairs nucleic acid single linear unknown 2051 CAUGGUUCGU CUGCC 15 15 base pairs nucleic acid single linear unknown 2052 GGUUCGUCUG CCUCU 15 15 base pairs nucleic acid single linear unknown 2053 UCUGCCUCUG CAGUG 15 15 base pairs nucleic acid single linear unknown 2054 AGUGCGUCCU CUGGG 15 15 base pairs nucleic acid single linear unknown 2055 GCGUCCUCUG GGGCU 15 15 base pairs nucleic acid single linear unknown 2056 GGCUGCUUGC UGACC 15 15 base pairs nucleic acid single linear unknown 2057 CCGCUGUCCA UCCAG 15 15 base pairs nucleic acid single linear unknown 2058 UGUCCAUCCA GAACC 15 15 base pairs nucleic acid single linear unknown 2059 AAACAGUACC UAAUA 15 15 base pairs nucleic acid single linear unknown 2060 AGUACCUAAU AAACA 15 15 base pairs nucleic acid single linear unknown 2061 ACCUAAUAAA CAGUC 15 15 base pairs nucleic acid single linear unknown 2062 AAACAGUCAG UGCUG 15 15 base pairs nucleic acid single linear unknown 2063 GUGCUGUUCU UUGUG 15 15 base pairs nucleic acid single linear unknown 2064 UGCUGUUCUU UGUGC 15 15 base pairs nucleic acid single linear unknown 2065 CUGUUCUUUG UGCCA 15 15 base pairs nucleic acid single linear unknown 2066 UGUUCUUUGU GCCAG 15 15 base pairs nucleic acid single linear unknown 2067 ACAGAGUUCA CUGAA 15 15 base pairs nucleic acid single linear unknown 2068 CAGAGUUCAC UGAAA 15 15 base pairs nucleic acid single linear unknown 2069 AAUGCCUUCC UUGCG 15 15 base pairs nucleic acid single linear unknown 2070 AUGCCUUCCU UGCGG 15 15 base pairs nucleic acid single linear unknown 2071 CCUUCCUUGC GGUGA 15 15 base pairs nucleic acid single linear unknown 2072 AGCGAAUUCC UAGAC 15 15 base pairs nucleic acid single linear unknown 2073 GCGAAUUCCU AGACA 15 15 base pairs nucleic acid single linear unknown 2074 AAUUCCUAGA CACCU 15 15 base pairs nucleic acid single linear unknown 2075 CACAAAUACU GCGAC 15 15 base pairs nucleic acid single linear unknown 2076 CCAACCUAGG GCUUC 15 15 base pairs nucleic acid single linear unknown 2077 UAGGGCUUCG GGUCC 15 15 base pairs nucleic acid single linear unknown 2078 AGGGCUUCGG GUCCA 15 15 base pairs nucleic acid single linear unknown 2079 UUCGGGUCCA GCAGA 15 15 base pairs nucleic acid single linear unknown 2080 GGCACCUCAG AAACA 15 15 base pairs nucleic acid single linear unknown 2081 ACACCAUCUG CACCU 15 15 base pairs nucleic acid single linear unknown 2082 GCACUGUACG AGUGA 15 15 base pairs nucleic acid single linear unknown 2083 GCUGUGUCCU GCACC 15 15 base pairs nucleic acid single linear unknown 2084 CACCGCUCAU GCUCG 15 15 base pairs nucleic acid single linear unknown 2085 UCAUGCUCGC CCGGC 15 15 base pairs nucleic acid single linear unknown 2086 CCCGGCUUUG GGGUC 15 15 base pairs nucleic acid single linear unknown 2087 CCGGCUUUGG GGUCA 15 15 base pairs nucleic acid single linear unknown 2088 UUGGGGUCAA GCAGA 15 15 base pairs nucleic acid single linear unknown 2089 AGCAGAUUGC UACAG 15 15 base pairs nucleic acid single linear unknown 2090 GAUUGCUACA GGGGU 15 15 base pairs nucleic acid single linear unknown 2091 CAGGGGUUUC UGAUA 15 15 base pairs nucleic acid single linear unknown 2092 AGGGGUUUCU GAUAC 15 15 base pairs nucleic acid single linear unknown 2093 GGGGUUUCUG AUACC 15 15 base pairs nucleic acid single linear unknown 2094 UUCUGAUACC AUCUG 15 15 base pairs nucleic acid single linear unknown 2095 AUACCAUCUG CGAGC 15 15 base pairs nucleic acid single linear unknown 2096 GCCCAGUCGG CUUCU 15 15 base pairs nucleic acid single linear unknown 2097 GUCGGCUUCU UCUCC 15 15 base pairs nucleic acid single linear unknown 2098 UCGGCUUCUU CUCCA 15 15 base pairs nucleic acid single linear unknown 2099 GGCUUCUUCU CCAAU 15 15 base pairs nucleic acid single linear unknown 2100 GCUUCUUCUC CAAUG 15 15 base pairs nucleic acid single linear unknown 2101 UUCUUCUCCA AUGUG 15 15 base pairs nucleic acid single linear unknown 2102 AAUGUGUCAU CUGCU 15 15 base pairs nucleic acid single linear unknown 2103 GUGUCAUCUG CUUUC 15 15 base pairs nucleic acid single linear unknown 2104 AUCUGCUUUC GAAAA 15 15 base pairs nucleic acid single linear unknown 2105 UCUGCUUUCG AAAAA 15 15 base pairs nucleic acid single linear unknown 2106 CUGCUUUCGA AAAAU 15 15 base pairs nucleic acid single linear unknown 2107 AAAAUGUCAC CCUUG 15 15 base pairs nucleic acid single linear unknown 2108 UCACCCUUGG ACAAG 15 15 base pairs nucleic acid single linear unknown 2109 ACCUGGUUGU GCAAC 15 15 base pairs nucleic acid single linear unknown 2110 CUGAUGUUGU CUGUG 15 15 base pairs nucleic acid single linear unknown 2111 AUGUUGUCUG UGGUC 15 15 base pairs nucleic acid single linear unknown 2112 CUGUGGUCCC CAGGA 15 15 base pairs nucleic acid single linear unknown 2113 CCAGGAUCGG CUGAG 15 15 base pairs nucleic acid single linear unknown 2114 UGGUGAUCCC CAUCA 15 15 base pairs nucleic acid single linear unknown 2115 UCCCCAUCAU CUUCG 15 15 base pairs nucleic acid single linear unknown 2116 CCAUCAUCUU CGGGA 15 15 base pairs nucleic acid single linear unknown 2117 AUCAUCUUCG GGAUC 15 15 base pairs nucleic acid single linear unknown 2118 UCAUCUUCGG GAUCC 15 15 base pairs nucleic acid single linear unknown 2119 UCGGGAUCCU GUUUG 15 15 base pairs nucleic acid single linear unknown 2120 AUCCUGUUUG CCAUC 15 15 base pairs nucleic acid single linear unknown 2121 UCCUGUUUGC CAUCC 15 15 base pairs nucleic acid single linear unknown 2122 UUGCCAUCCU CUUGG 15 15 base pairs nucleic acid single linear unknown 2123 CCAUCCUCUU GGUGC 15 15 base pairs nucleic acid single linear unknown 2124 AUCCUCUUGG UGCUG 15 15 base pairs nucleic acid single linear unknown 2125 UGCUGGUCUU UAUCA 15 15 base pairs nucleic acid single linear unknown 2126 CUGGUCUUUA UCAAA 15 15 base pairs nucleic acid single linear unknown 2127 UGGUCUUUAU CAAAA 15 15 base pairs nucleic acid single linear unknown 2128 GGUCUUUAUC AAAAA 15 15 base pairs nucleic acid single linear unknown 2129 UCUUUAUCAA AAAGG 15 15 base pairs nucleic acid single linear unknown 2130 AACCAAUAAG GCCCC 15 15 base pairs nucleic acid single linear unknown 2131 AGGAGAUCAA UUUUC 15 15 base pairs nucleic acid single linear unknown 2132 GAUCAAUUUU CCCGA 15 15 base pairs nucleic acid single linear unknown 2133 AUCAAUUUUC CCGAC 15 15 base pairs nucleic acid single linear unknown 2134 UCAAUUUUCC CGACG 15 15 base pairs nucleic acid single linear unknown 2135 CAAUUUUCCC GACGA 15 15 base pairs nucleic acid single linear unknown 2136 CGACGAUCUU CCUGG 15 15 base pairs nucleic acid single linear unknown 2137 ACGAUCUUCC UGGCU 15 15 base pairs nucleic acid single linear unknown 2138 CGAUCUUCCU GGCUC 15 15 base pairs nucleic acid single linear unknown 2139 CCUGGCUCCA ACACU 15 15 base pairs nucleic acid single linear unknown 2140 UGCUGCUCCA GUGCA 15 15 base pairs nucleic acid single linear unknown 2141 GGAGACUUUA CAUGG 15 15 base pairs nucleic acid single linear unknown 2142 GAGACUUUAC AUGGA 15 15 base pairs nucleic acid single linear unknown 2143 AGACUUUACA UGGAU 15 15 base pairs nucleic acid single linear unknown 2144 AACCGGUCAC CCAGG 15 15 base pairs nucleic acid single linear unknown 2145 AGAGAGUCGC AUCUC 15 15 base pairs nucleic acid single linear unknown 2146 GUCGCAUCUC AGUGC 15 15 base pairs nucleic acid single linear unknown 2147 CGCAUCUCAG UGCAG 15 15 base pairs nucleic acid single linear unknown 2148 AGGCAGUUGG CCAGA 15 15 base pairs nucleic acid single linear unknown 2149 GGGAGCUAUG CCCAG 15 15 base pairs nucleic acid single linear unknown 2150 GCCCAGUCAG UGCCA 15 36 base pairs nucleic acid single linear unknown 2151 GGCGCCCCUG AUGAGGCCGA AAGGCCGAAA GCGAGG 36 36 base pairs nucleic acid single linear unknown 2152 GCGGCAGCUG AUGAGGCCGA AAGGCCGAAA CCACUG 36 36 base pairs nucleic acid single linear unknown 2153 GAGGUGACUG AUGAGGCCGA AAGGCCGAAA CCAGGC 36 36 base pairs nucleic acid single linear unknown 2154 GCGAGGUCUG AUGAGGCCGA AAGGCCGAAA GACCAG 36 36 base pairs nucleic acid single linear unknown 2155 CCAUGGCCUG AUGAGGCCGA AAGGCCGAAA GGUGAG 36 36 base pairs nucleic acid single linear unknown 2156 GCAGACGCUG AUGAGGCCGA AAGGCCGAAA CCAUGG 36 36 base pairs nucleic acid single linear unknown 2157 GGCAGACCUG AUGAGGCCGA AAGGCCGAAA ACCAUG 36 36 base pairs nucleic acid single linear unknown 2158 AGAGGCACUG AUGAGGCCGA AAGGCCGAAA CGAACC 36 36 base pairs nucleic acid single linear unknown 2159 CACUGCACUG AUGAGGCCGA AAGGCCGAAA GGCAGA 36 36 base pairs nucleic acid single linear unknown 2160 CCCAGAGCUG AUGAGGCCGA AAGGCCGAAA CGCACU 36 36 base pairs nucleic acid single linear unknown 2161 AGCCCCACUG AUGAGGCCGA AAGGCCGAAA GGACGC 36 36 base pairs nucleic acid single linear unknown 2162 GGUCAGCCUG AUGAGGCCGA AAGGCCGAAA GCAGCC 36 36 base pairs nucleic acid single linear unknown 2163 CUGGAUGCUG AUGAGGCCGA AAGGCCGAAA CAGCGG 36 36 base pairs nucleic acid single linear unknown 2164 GGUUCUGCUG AUGAGGCCGA AAGGCCGAAA UGGACA 36 36 base pairs nucleic acid single linear unknown 2165 UAUUAGGCUG AUGAGGCCGA AAGGCCGAAA CUGUUU 36 36 base pairs nucleic acid single linear unknown 2166 UGUUUAUCUG AUGAGGCCGA AAGGCCGAAA GGUACU 36 36 base pairs nucleic acid single linear unknown 2167 GACUGUUCUG AUGAGGCCGA AAGGCCGAAA UUAGGU 36 36 base pairs nucleic acid single linear unknown 2168 CAGCACUCUG AUGAGGCCGA AAGGCCGAAA CUGUUU 36 36 base pairs nucleic acid single linear unknown 2169 CACAAAGCUG AUGAGGCCGA AAGGCCGAAA CAGCAC 36 36 base pairs nucleic acid single linear unknown 2170 GCACAAACUG AUGAGGCCGA AAGGCCGAAA ACAGCA 36 36 base pairs nucleic acid single linear unknown 2171 UGGCACACUG AUGAGGCCGA AAGGCCGAAA GAACAG 36 36 base pairs nucleic acid single linear unknown 2172 CUGGCACCUG AUGAGGCCGA AAGGCCGAAA AGAACA 36 36 base pairs nucleic acid single linear unknown 2173 UUCAGUGCUG AUGAGGCCGA AAGGCCGAAA CUCUGU 36 36 base pairs nucleic acid single linear unknown 2174 UUUCAGUCUG AUGAGGCCGA AAGGCCGAAA ACUCUG 36 36 base pairs nucleic acid single linear unknown 2175 CGCAAGGCUG AUGAGGCCGA AAGGCCGAAA GGCAUU 36 36 base pairs nucleic acid single linear unknown 2176 CCGCAAGCUG AUGAGGCCGA AAGGCCGAAA AGGCAU 36 36 base pairs nucleic acid single linear unknown 2177 UCACCGCCUG AUGAGGCCGA AAGGCCGAAA GGAAGG 36 36 base pairs nucleic acid single linear unknown 2178 GUCUAGGCUG AUGAGGCCGA AAGGCCGAAA UUCGCU 36 36 base pairs nucleic acid single linear unknown 2179 UGUCUAGCUG AUGAGGCCGA AAGGCCGAAA AUUCGC 36 36 base pairs nucleic acid single linear unknown 2180 AGGUGUCCUG AUGAGGCCGA AAGGCCGAAA GGAAUU 36 36 base pairs nucleic acid single linear unknown 2181 GUCGCAGCUG AUGAGGCCGA AAGGCCGAAA UUUGUG 36 36 base pairs nucleic acid single linear unknown 2182 GAAGCCCCUG AUGAGGCCGA AAGGCCGAAA GGUUGG 36 36 base pairs nucleic acid single linear unknown 2183 GGACCCGCUG AUGAGGCCGA AAGGCCGAAA GCCCUA 36 36 base pairs nucleic acid single linear unknown 2184 UGGACCCCUG AUGAGGCCGA AAGGCCGAAA AGCCCU 36 36 base pairs nucleic acid single linear unknown 2185 UCUGCUGCUG AUGAGGCCGA AAGGCCGAAA CCCGAA 36 36 base pairs nucleic acid single linear unknown 2186 UGUUUCUCUG AUGAGGCCGA AAGGCCGAAA GGUGCC 36 36 base pairs nucleic acid single linear unknown 2187 AGGUGCACUG AUGAGGCCGA AAGGCCGAAA UGGUGU 36 36 base pairs nucleic acid single linear unknown 2188 UCACUCGCUG AUGAGGCCGA AAGGCCGAAA CAGUGC 36 36 base pairs nucleic acid single linear unknown 2189 GGUGCAGCUG AUGAGGCCGA AAGGCCGAAA CACAGC 36 36 base pairs nucleic acid single linear unknown 2190 CGAGCAUCUG AUGAGGCCGA AAGGCCGAAA GCGGUG 36 36 base pairs nucleic acid single linear unknown 2191 GCCGGGCCUG AUGAGGCCGA AAGGCCGAAA GCAUGA 36 36 base pairs nucleic acid single linear unknown 2192 GACCCCACUG AUGAGGCCGA AAGGCCGAAA GCCGGG 36 36 base pairs nucleic acid single linear unknown 2193 UGACCCCCUG AUGAGGCCGA AAGGCCGAAA AGCCGG 36 36 base pairs nucleic acid single linear unknown 2194 UCUGCUUCUG AUGAGGCCGA AAGGCCGAAA CCCCAA 36 36 base pairs nucleic acid single linear unknown 2195 CUGUAGCCUG AUGAGGCCGA AAGGCCGAAA UCUGCU 36 36 base pairs nucleic acid single linear unknown 2196 ACCCCUGCUG AUGAGGCCGA AAGGCCGAAA GCAAUC 36 36 base pairs nucleic acid single linear unknown 2197 UAUCAGACUG AUGAGGCCGA AAGGCCGAAA CCCCUG 36 36 base pairs nucleic acid single linear unknown 2198 GUAUCAGCUG AUGAGGCCGA AAGGCCGAAA ACCCCU 36 36 base pairs nucleic acid single linear unknown 2199 GGUAUCACUG AUGAGGCCGA AAGGCCGAAA AACCCC 36 36 base pairs nucleic acid single linear unknown 2200 CAGAUGGCUG AUGAGGCCGA AAGGCCGAAA UCAGAA 36 36 base pairs nucleic acid single linear unknown 2201 GCUCGCACUG AUGAGGCCGA AAGGCCGAAA UGGUAU 36 36 base pairs nucleic acid single linear unknown 2202 AGAAGCCCUG AUGAGGCCGA AAGGCCGAAA CUGGGC 36 36 base pairs nucleic acid single linear unknown 2203 GGAGAAGCUG AUGAGGCCGA AAGGCCGAAA GCCGAC 36 36 base pairs nucleic acid single linear unknown 2204 UGGAGAACUG AUGAGGCCGA AAGGCCGAAA AGCCGA 36 36 base pairs nucleic acid single linear unknown 2205 AUUGGAGCUG AUGAGGCCGA AAGGCCGAAA GAAGCC 36 36 base pairs nucleic acid single linear unknown 2206 CAUUGGACUG AUGAGGCCGA AAGGCCGAAA AGAAGC 36 36 base pairs nucleic acid single linear unknown 2207 CACAUUGCUG AUGAGGCCGA AAGGCCGAAA GAAGAA 36 36 base pairs nucleic acid single linear unknown 2208 AGCAGAUCUG AUGAGGCCGA AAGGCCGAAA CACAUU 36 36 base pairs nucleic acid single linear unknown 2209 GAAAGCACUG AUGAGGCCGA AAGGCCGAAA UGACAC 36 36 base pairs nucleic acid single linear unknown 2210 UUUUCGACUG AUGAGGCCGA AAGGCCGAAA GCAGAU 36 36 base pairs nucleic acid single linear unknown 2211 UUUUUCGCUG AUGAGGCCGA AAGGCCGAAA AGCAGA 36 36 base pairs nucleic acid single linear unknown 2212 AUUUUUCCUG AUGAGGCCGA AAGGCCGAAA AAGCAG 36 36 base pairs nucleic acid single linear unknown 2213 CAAGGGUCUG AUGAGGCCGA AAGGCCGAAA CAUUUU 36 36 base pairs nucleic acid single linear unknown 2214 CUUGUCCCUG AUGAGGCCGA AAGGCCGAAA GGGUGA 36 36 base pairs nucleic acid single linear unknown 2215 GUUGCACCUG AUGAGGCCGA AAGGCCGAAA CCAGGU 36 36 base pairs nucleic acid single linear unknown 2216 CACAGACCUG AUGAGGCCGA AAGGCCGAAA CAUCAG 36 36 base pairs nucleic acid single linear unknown 2217 GACCACACUG AUGAGGCCGA AAGGCCGAAA CAACAU 36 36 base pairs nucleic acid single linear unknown 2218 UCCUGGGCUG AUGAGGCCGA AAGGCCGAAA CCACAG 36 36 base pairs nucleic acid single linear unknown 2219 CUCAGCCCUG AUGAGGCCGA AAGGCCGAAA UCCUGG 36 36 base pairs nucleic acid single linear unknown 2220 UGAUGGGCUG AUGAGGCCGA AAGGCCGAAA UCACCA 36 36 base pairs nucleic acid single linear unknown 2221 CGAAGAUCUG AUGAGGCCGA AAGGCCGAAA UGGGGA 36 36 base pairs nucleic acid single linear unknown 2222 UCCCGAACUG AUGAGGCCGA AAGGCCGAAA UGAUGG 36 36 base pairs nucleic acid single linear unknown 2223 GAUCCCGCUG AUGAGGCCGA AAGGCCGAAA GAUGAU 36 36 base pairs nucleic acid single linear unknown 2224 GGAUCCCCUG AUGAGGCCGA AAGGCCGAAA AGAUGA 36 36 base pairs nucleic acid single linear unknown 2225 CAAACAGCUG AUGAGGCCGA AAGGCCGAAA UCCCGA 36 36 base pairs nucleic acid single linear unknown 2226 GAUGGCACUG AUGAGGCCGA AAGGCCGAAA CAGGAU 36 36 base pairs nucleic acid single linear unknown 2227 GGAUGGCCUG AUGAGGCCGA AAGGCCGAAA ACAGGA 36 36 base pairs nucleic acid single linear unknown 2228 CCAAGAGCUG AUGAGGCCGA AAGGCCGAAA UGGCAA 36 36 base pairs nucleic acid single linear unknown 2229 GCACCAACUG AUGAGGCCGA AAGGCCGAAA GGAUGG 36 36 base pairs nucleic acid single linear unknown 2230 CAGCACCCUG AUGAGGCCGA AAGGCCGAAA GAGGAU 36 36 base pairs nucleic acid single linear unknown 2231 UGAUAAACUG AUGAGGCCGA AAGGCCGAAA CCAGCA 36 36 base pairs nucleic acid single linear unknown 2232 UUUGAUACUG AUGAGGCCGA AAGGCCGAAA GACCAG 36 36 base pairs nucleic acid single linear unknown 2233 UUUUGAUCUG AUGAGGCCGA AAGGCCGAAA AGACCA 36 36 base pairs nucleic acid single linear unknown 2234 UUUUUGACUG AUGAGGCCGA AAGGCCGAAA AAGACC 36 36 base pairs nucleic acid single linear unknown 2235 CCUUUUUCUG AUGAGGCCGA AAGGCCGAAA UAAAGA 36 36 base pairs nucleic acid single linear unknown 2236 GGGGCCUCUG AUGAGGCCGA AAGGCCGAAA UUGGUU 36 36 base pairs nucleic acid single linear unknown 2237 GAAAAUUCUG AUGAGGCCGA AAGGCCGAAA UCUCCU 36 36 base pairs nucleic acid single linear unknown 2238 UCGGGAACUG AUGAGGCCGA AAGGCCGAAA UUGAUC 36 36 base pairs nucleic acid single linear unknown 2239 GUCGGGACUG AUGAGGCCGA AAGGCCGAAA AUUGAU 36 36 base pairs nucleic acid single linear unknown 2240 CGUCGGGCUG AUGAGGCCGA AAGGCCGAAA AAUUGA 36 36 base pairs nucleic acid single linear unknown 2241 UCGUCGGCUG AUGAGGCCGA AAGGCCGAAA AAAUUG 36 36 base pairs nucleic acid single linear unknown 2242 CCAGGAACUG AUGAGGCCGA AAGGCCGAAA UCGUCG 36 36 base pairs nucleic acid single linear unknown 2243 AGCCAGGCUG AUGAGGCCGA AAGGCCGAAA GAUCGU 36 36 base pairs nucleic acid single linear unknown 2244 GAGCCAGCUG AUGAGGCCGA AAGGCCGAAA AGAUCG 36 36 base pairs nucleic acid single linear unknown 2245 AGUGUUGCUG AUGAGGCCGA AAGGCCGAAA GCCAGG 36 36 base pairs nucleic acid single linear unknown 2246 UGCACUGCUG AUGAGGCCGA AAGGCCGAAA GCAGCA 36 36 base pairs nucleic acid single linear unknown 2247 CCAUGUACUG AUGAGGCCGA AAGGCCGAAA GUCUCC 36 36 base pairs nucleic acid single linear unknown 2248 UCCAUGUCUG AUGAGGCCGA AAGGCCGAAA AGUCUC 36 36 base pairs nucleic acid single linear unknown 2249 AUCCAUGCUG AUGAGGCCGA AAGGCCGAAA AAGUCU 36 36 base pairs nucleic acid single linear unknown 2250 CCUGGGUCUG AUGAGGCCGA AAGGCCGAAA CCGGUU 36 36 base pairs nucleic acid single linear unknown 2251 GAGAUGCCUG AUGAGGCCGA AAGGCCGAAA CUCUCU 36 36 base pairs nucleic acid single linear unknown 2252 GCACUGACUG AUGAGGCCGA AAGGCCGAAA UGCGAC 36 36 base pairs nucleic acid single linear unknown 2253 CUGCACUCUG AUGAGGCCGA AAGGCCGAAA GAUGCG 36 36 base pairs nucleic acid single linear unknown 2254 UCUGGCCCUG AUGAGGCCGA AAGGCCGAAA CUGCCU 36 36 base pairs nucleic acid single linear unknown 2255 CUGGGCACUG AUGAGGCCGA AAGGCCGAAA GCUCCC 36 36 base pairs nucleic acid single linear unknown 2256 UGGCACUCUG AUGAGGCCGA AAGGCCGAAA CUGGGC 36 15 base pairs nucleic acid single linear unknown 2257 GGUGUCUUUG CCUCG 15 15 base pairs nucleic acid single linear unknown 2258 GGUGUCUUUG CCUCG 15 15 base pairs nucleic acid single linear unknown 2259 UUUGCCUCGG CUGUG 15 15 base pairs nucleic acid single linear unknown 2260 GCGCGCUAUG GGGCU 15 15 base pairs nucleic acid single linear unknown 2261 CAGCGGUCCA UCUAG 15 15 base pairs nucleic acid single linear unknown 2262 CAGCGGUCCA UCUAG 15 15 base pairs nucleic acid single linear unknown 2263 GGUCCAUCUA GGGCA 15 15 base pairs nucleic acid single linear unknown 2264 AGUGUGUUAC GUGCA 15 15 base pairs nucleic acid single linear unknown 2265 AGUGUGUUAC GUGCA 15 15 base pairs nucleic acid single linear unknown 2266 GUGUGUUACG UGCAG 15 15 base pairs nucleic acid single linear unknown 2267 AAACAGUACC UCCAC 15 15 base pairs nucleic acid single linear unknown 2268 CUGUGAUUUG UGCCA 15 15 base pairs nucleic acid single linear unknown 2269 UGUGAUUUGU GCCAG 15 15 base pairs nucleic acid single linear unknown 2270 CAGCUCUUGA GAAGA 15 15 base pairs nucleic acid single linear unknown 2271 GGCGAAUUCU CAGCC 15 15 base pairs nucleic acid single linear unknown 2272 GCGAAUUCUC AGCCC 15 15 base pairs nucleic acid single linear unknown 2273 GGGAGAUUCG CUGUC 15 15 base pairs nucleic acid single linear unknown 2274 ACCCAAUCAA GGGCU 15 15 base pairs nucleic acid single linear unknown 2275 ACCCAAUCAA GGGCU 15 15 base pairs nucleic acid single linear unknown 2276 AAGGGCUUCG GGUUA 15 15 base pairs nucleic acid single linear unknown 2277 AAGGGCUUCG GGUUA 15 15 base pairs nucleic acid single linear unknown 2278 AGGGCUUCGG GUUAA 15 15 base pairs nucleic acid single linear unknown 2279 UUCGGGUUAA GAAGG 15 15 base pairs nucleic acid single linear unknown 2280 UUCGGGUUAA GAAGG 15 15 base pairs nucleic acid single linear unknown 2281 ACACUGUCUG UACCU 15 15 base pairs nucleic acid single linear unknown 2282 CAAGGAUUGC GAGGC 15 15 base pairs nucleic acid single linear unknown 2283 CCUGUAUCCC UGGCU 15 15 base pairs nucleic acid single linear unknown 2284 CCUGGCUUUG GAGUU 15 15 base pairs nucleic acid single linear unknown 2285 CCUGGCUUUG GAGUU 15 15 base pairs nucleic acid single linear unknown 2286 CUGGCUUUGG AGUUA 15 15 base pairs nucleic acid single linear unknown 2287 CACUGAUACC GUCUG 15 15 base pairs nucleic acid single linear unknown 2288 AUACCGUCUG UCAUC 15 15 base pairs nucleic acid single linear unknown 2289 AUACCGUCUG UCAUC 15 15 base pairs nucleic acid single linear unknown 2290 CUGUCAUCCC UGCCC 15 15 base pairs nucleic acid single linear unknown 2291 GCCCAGUCGG CUUCU 15 15 base pairs nucleic acid single linear unknown 2292 GCCCAGUCGG CUUCU 15 15 base pairs nucleic acid single linear unknown 2293 GUCGGCUUCU UCUCC 15 15 base pairs nucleic acid single linear unknown 2294 UCGGCUUCUU CUCCA 15 15 base pairs nucleic acid single linear unknown 2295 GGCUUCUUCU CCAAU 15 15 base pairs nucleic acid single linear unknown 2296 GCUUCUUCUC CAAUC 15 15 base pairs nucleic acid single linear unknown 2297 UUCUUCUCCA AUCAG 15 15 base pairs nucleic acid single linear unknown 2298 AAUCAGUCAU CACUU 15 15 base pairs nucleic acid single linear unknown 2299 AAUCAGUCAU CACUU 15 15 base pairs nucleic acid single linear unknown 2300 CAUCACUUUU CGAAA 15 15 base pairs nucleic acid single linear unknown 2301 AUCACUUUUC GAAAA 15 15 base pairs nucleic acid single linear unknown 2302 UCACUUUUCG AAAAG 15 15 base pairs nucleic acid single linear unknown 2303 UCACUUUUCG AAAAG 15 15 base pairs nucleic acid single linear unknown 2304 AAAGUGUUAU CCCUG 15 15 base pairs nucleic acid single linear unknown 2305 CUAAUGUCAU CUGUG 15 15 base pairs nucleic acid single linear unknown 2306 AUGUCAUCUG UGGUU 15 15 base pairs nucleic acid single linear unknown 2307 GUGGUUUAAA GUCCC 15 15 base pairs nucleic acid single linear unknown 2308 GUGGUUUAAA GUCCC 15 15 base pairs nucleic acid single linear unknown 2309 UUAAAGUCCC GGAUG 15 15 base pairs nucleic acid single linear unknown 2310 UGGGCAUCCU CAUCA 15 15 base pairs nucleic acid single linear unknown 2311 UCCUCAUCAC CAUUU 15 15 base pairs nucleic acid single linear unknown 2312 UCACCAUUUU CGGGG 15 15 base pairs nucleic acid single linear unknown 2313 UCACCAUUUU CGGGG 15 15 base pairs nucleic acid single linear unknown 2314 ACCAUUUUCG GGGUG 15 15 base pairs nucleic acid single linear unknown 2315 CCAUUUUCGG GGUGU 15 15 base pairs nucleic acid single linear unknown 2316 CCAUUUUCGG GGUGU 15 15 base pairs nucleic acid single linear unknown 2317 CCAUUUUCGG GGUGU 15 15 base pairs nucleic acid single linear unknown 2318 UGUUUCUCUA UAUCA 15 15 base pairs nucleic acid single linear unknown 2319 UUUCUCUAUA UCAAA 15 15 base pairs nucleic acid single linear unknown 2320 UCUCUAUAUC AAAAA 15 15 base pairs nucleic acid single linear unknown 2321 UCUAUAUCAA AAAGG 15 15 base pairs nucleic acid single linear unknown 2322 GGAAGAUUAU CCCGG 15 15 base pairs nucleic acid single linear unknown 2323 CGCUGCUCCA GUGCA 15 15 base pairs nucleic acid single linear unknown 2324 AGCCUGUCAC ACAGG 15 15 base pairs nucleic acid single linear unknown 2325 AGCCUGUCAC ACAGG 15 15 base pairs nucleic acid single linear unknown 2326 AGAGAGUCGC AUCUC 15 15 base pairs nucleic acid single linear unknown 2327 GUCGCAUCUC AGUGC 15 15 base pairs nucleic acid single linear unknown 2328 CGCAUCUCAG UGCAG 15 15 base pairs nucleic acid single linear unknown 2329 CCCUGGUCUG AACCC 15 15 base pairs nucleic acid single linear unknown 2330 GGCUGCUUGC UGACC 15 15 base pairs nucleic acid single linear unknown 2331 CUCAACUUGC UUUUU 15 15 base pairs nucleic acid single linear unknown 2332 UUGCUUUUUA AGGAU 15 15 base pairs nucleic acid single linear unknown 2333 UUGCUUUUUA AGGAU 15 15 base pairs nucleic acid single linear unknown 2334 GAAAGCUCGG GCAUC 15 15 base pairs nucleic acid single linear unknown 2335 CAGUGAUAUC UACCA 15 15 base pairs nucleic acid single linear unknown 2336 GAUAUCUACC AAGUG 15 15 base pairs nucleic acid single linear unknown 2337 CCAGAGUUGU CUUGC 15 15 base pairs nucleic acid single linear unknown 2338 GAGUUGUCUU GCUGC 15 15 base pairs nucleic acid single linear unknown 2339 GUUGUCUUGC UGCGG 15 15 base pairs nucleic acid single linear unknown 2340 GCGGCGUUCA CUGUA 15 15 base pairs nucleic acid single linear unknown 2341 CGGCGUUCAC UGUAA 15 15 base pairs nucleic acid single linear unknown 2342 CGUGGCUACA GGAGU 15 15 base pairs nucleic acid single linear unknown 2343 CGUGGCUACA GGAGU 15 15 base pairs nucleic acid single linear unknown 2344 CGCAGCUUGU GCUCG 15 15 base pairs nucleic acid single linear unknown 2345 ACCUGGUUGC CAUCA 15 15 base pairs nucleic acid single linear unknown 2346 UGUAAUUAUU UAUAC 15 15 base pairs nucleic acid single linear unknown 2347 GGCAUCUCAG AAACU 15 15 base pairs nucleic acid single linear unknown 2348 GGCAUCUCAG AAACU 15 15 base pairs nucleic acid single linear unknown 2349 AGAAACUCUA GCAGG 15 15 base pairs nucleic acid single linear unknown 2350 AACAGGUAGU GGAAU 15 15 base pairs nucleic acid single linear unknown 2351 AGGAGCUUGC UGCCC 15 15 base pairs nucleic acid single linear unknown 2352 UUUUGAUCCC UGGGA 15 15 base pairs nucleic acid single linear unknown 2353 GGGACUUCAU GGUAA 15 15 base pairs nucleic acid single linear unknown 2354 GGGACUUCAU GGUAA 15 15 base pairs nucleic acid single linear unknown 2355 UUGUCAUUUG ACCUC 15 15 base pairs nucleic acid single linear unknown 2356 GUAAUGUACC CCGUG 15 15 base pairs nucleic acid single linear unknown 2357 CACAUAUCCU AAAAU 15 15 base pairs nucleic acid single linear unknown 2358 GUGGUGUAUU GUAGA 15 15 base pairs nucleic acid single linear unknown 2359 GUAUUGUAGA AAUUA 15 15 base pairs nucleic acid single linear unknown 2360 AUUAUUUAAU CCGCC 15 15 base pairs nucleic acid single linear unknown 2361 AUUAUUUAAU CCGCC 15 15 base pairs nucleic acid single linear unknown 2362 CUGGGUUUCU ACCUG 15 36 base pairs nucleic acid single linear unknown 2363 CGAGGCACUG AUGAGGCCGA AAGGCCGAAA GACACC 36 36 base pairs nucleic acid single linear unknown 2364 CGAGGCACUG AUGAGGCCGA AAGGCCGAAA GACACC 36 36 base pairs nucleic acid single linear unknown 2365 CACAGCCCUG AUGAGGCCGA AAGGCCGAAA GGCAAA 36 36 base pairs nucleic acid single linear unknown 2366 AGCCCCACUG AUGAGGCCGA AAGGCCGAAA GCGCGC 36 36 base pairs nucleic acid single linear unknown 2367 CUAGAUGCUG AUGAGGCCGA AAGGCCGAAA CCGCUG 36 36 base pairs nucleic acid single linear unknown 2368 CUAGAUGCUG AUGAGGCCGA AAGGCCGAAA CCGCUG 36 36 base pairs nucleic acid single linear unknown 2369 UGCCCUACUG AUGAGGCCGA AAGGCCGAAA UGGACC 36 36 base pairs nucleic acid single linear unknown 2370 UGCACGUCUG AUGAGGCCGA AAGGCCGAAA CACACU 36 36 base pairs nucleic acid single linear unknown 2371 UGCACGUCUG AUGAGGCCGA AAGGCCGAAA CACACU 36 36 base pairs nucleic acid single linear unknown 2372 CUGCACGCUG AUGAGGCCGA AAGGCCGAAA ACACAC 36 36 base pairs nucleic acid single linear unknown 2373 GUGGAGGCUG AUGAGGCCGA AAGGCCGAAA CUGUUU 36 36 base pairs nucleic acid single linear unknown 2374 UGGCACACUG AUGAGGCCGA AAGGCCGAAA UCACAG 36 36 base pairs nucleic acid single linear unknown 2375 CUGGCACCUG AUGAGGCCGA AAGGCCGAAA AUCACA 36 36 base pairs nucleic acid single linear unknown 2376 UCUUCUCCUG AUGAGGCCGA AAGGCCGAAA GAGCUG 36 36 base pairs nucleic acid single linear unknown 2377 GGCUGAGCUG AUGAGGCCGA AAGGCCGAAA UUCGCC 36 36 base pairs nucleic acid single linear unknown 2378 GGGCUGACUG AUGAGGCCGA AAGGCCGAAA AUUCGC 36 36 base pairs nucleic acid single linear unknown 2379 GACAGCGCUG AUGAGGCCGA AAGGCCGAAA UCUCCC 36 36 base pairs nucleic acid single linear unknown 2380 AGCCCUUCUG AUGAGGCCGA AAGGCCGAAA UUGGGU 36 36 base pairs nucleic acid single linear unknown 2381 AGCCCUUCUG AUGAGGCCGA AAGGCCGAAA UUGGGU 36 36 base pairs nucleic acid single linear unknown 2382 UAACCCGCUG AUGAGGCCGA AAGGCCGAAA GCCCUU 36 36 base pairs nucleic acid single linear unknown 2383 UAACCCGCUG AUGAGGCCGA AAGGCCGAAA GCCCUU 36 36 base pairs nucleic acid single linear unknown 2384 UUAACCCCUG AUGAGGCCGA AAGGCCGAAA AGCCCU 36 36 base pairs nucleic acid single linear unknown 2385 CCUUCUUCUG AUGAGGCCGA AAGGCCGAAA CCCGAA 36 36 base pairs nucleic acid single linear unknown 2386 CCUUCUUCUG AUGAGGCCGA AAGGCCGAAA CCCGAA 36 36 base pairs nucleic acid single linear unknown 2387 AGGUACACUG AUGAGGCCGA AAGGCCGAAA CAGUGU 36 36 base pairs nucleic acid single linear unknown 2388 GCCUCGCCUG AUGAGGCCGA AAGGCCGAAA UCCUUG 36 36 base pairs nucleic acid single linear unknown 2389 AGCCAGGCUG AUGAGGCCGA AAGGCCGAAA UACAGG 36 36 base pairs nucleic acid single linear unknown 2390 AACUCCACUG AUGAGGCCGA AAGGCCGAAA GCCAGG 36 36 base pairs nucleic acid single linear unknown 2391 AACUCCACUG AUGAGGCCGA AAGGCCGAAA GCCAGG 36 36 base pairs nucleic acid single linear unknown 2392 UAACUCCCUG AUGAGGCCGA AAGGCCGAAA AGCCAG 36 36 base pairs nucleic acid single linear unknown 2393 CAGACGGCUG AUGAGGCCGA AAGGCCGAAA UCAGUG 36 36 base pairs nucleic acid single linear unknown 2394 GAUGACACUG AUGAGGCCGA AAGGCCGAAA CGGUAU 36 36 base pairs nucleic acid single linear unknown 2395 GAUGACACUG AUGAGGCCGA AAGGCCGAAA CGGUAU 36 36 base pairs nucleic acid single linear unknown 2396 GGGCAGGCUG AUGAGGCCGA AAGGCCGAAA UGACAG 36 36 base pairs nucleic acid single linear unknown 2397 AGAAGCCCUG AUGAGGCCGA AAGGCCGAAA CUGGGC 36 36 base pairs nucleic acid single linear unknown 2398 AGAAGCCCUG AUGAGGCCGA AAGGCCGAAA CUGGGC 36 36 base pairs nucleic acid single linear unknown 2399 GGAGAAGCUG AUGAGGCCGA AAGGCCGAAA GCCGAC 36 36 base pairs nucleic acid single linear unknown 2400 UGGAGAACUG AUGAGGCCGA AAGGCCGAAA AGCCGA 36 36 base pairs nucleic acid single linear unknown 2401 AUUGGAGCUG AUGAGGCCGA AAGGCCGAAA GAAGCC 36 36 base pairs nucleic acid single linear unknown 2402 GAUUGGACUG AUGAGGCCGA AAGGCCGAAA AGAAGC 36 36 base pairs nucleic acid single linear unknown 2403 CUGAUUGCUG AUGAGGCCGA AAGGCCGAAA GAAGAA 36 36 base pairs nucleic acid single linear unknown 2404 AAGUGAUCUG AUGAGGCCGA AAGGCCGAAA CUGAUU 36 36 base pairs nucleic acid single linear unknown 2405 AAGUGAUCUG AUGAGGCCGA AAGGCCGAAA CUGAUU 36 36 base pairs nucleic acid single linear unknown 2406 UUUCGAACUG AUGAGGCCGA AAGGCCGAAA GUGAUG 36 36 base pairs nucleic acid single linear unknown 2407 UUUUCGACUG AUGAGGCCGA AAGGCCGAAA AGUGAU 36 36 base pairs nucleic acid single linear unknown 2408 CUUUUCGCUG AUGAGGCCGA AAGGCCGAAA AAGUGA 36 36 base pairs nucleic acid single linear unknown 2409 CUUUUCGCUG AUGAGGCCGA AAGGCCGAAA AAGUGA 36 36 base pairs nucleic acid single linear unknown 2410 CAGGGAUCUG AUGAGGCCGA AAGGCCGAAA CACUUU 36 36 base pairs nucleic acid single linear unknown 2411 CACAGAUCUG AUGAGGCCGA AAGGCCGAAA CAUUAG 36 36 base pairs nucleic acid single linear unknown 2412 AACCACACUG AUGAGGCCGA AAGGCCGAAA UGACAU 36 36 base pairs nucleic acid single linear unknown 2413 GGGACUUCUG AUGAGGCCGA AAGGCCGAAA AACCAC 36 36 base pairs nucleic acid single linear unknown 2414 GGGACUUCUG AUGAGGCCGA AAGGCCGAAA AACCAC 36 36 base pairs nucleic acid single linear unknown 2415 CAUCCGGCUG AUGAGGCCGA AAGGCCGAAA CUUUAA 36 36 base pairs nucleic acid single linear unknown 2416 UGAUGAGCUG AUGAGGCCGA AAGGCCGAAA UGCCCA 36 36 base pairs nucleic acid single linear unknown 2417 AAAUGGUCUG AUGAGGCCGA AAGGCCGAAA UGAGGA 36 36 base pairs nucleic acid single linear unknown 2418 CCCCGAACUG AUGAGGCCGA AAGGCCGAAA UGGUGA 36 36 base pairs nucleic acid single linear unknown 2419 CCCCGAACUG AUGAGGCCGA AAGGCCGAAA UGGUGA 36 36 base pairs nucleic acid single linear unknown 2420 CACCCCGCUG AUGAGGCCGA AAGGCCGAAA AAUGGU 36 36 base pairs nucleic acid single linear unknown 2421 ACACCCCCUG AUGAGGCCGA AAGGCCGAAA AAAUGG 36 36 base pairs nucleic acid single linear unknown 2422 ACACCCCCUG AUGAGGCCGA AAGGCCGAAA AAAUGG 36 36 base pairs nucleic acid single linear unknown 2423 ACACCCCCUG AUGAGGCCGA AAGGCCGAAA AAAUGG 36 36 base pairs nucleic acid single linear unknown 2424 UGAUAUACUG AUGAGGCCGA AAGGCCGAAA GAAACA 36 36 base pairs nucleic acid single linear unknown 2425 UUUGAUACUG AUGAGGCCGA AAGGCCGAAA GAGAAA 36 36 base pairs nucleic acid single linear unknown 2426 UUUUUGACUG AUGAGGCCGA AAGGCCGAAA UAGAGA 36 36 base pairs nucleic acid single linear unknown 2427 CCUUUUUCUG AUGAGGCCGA AAGGCCGAAA UAUAGA 36 36 base pairs nucleic acid single linear unknown 2428 CCGGGAUCUG AUGAGGCCGA AAGGCCGAAA UCUUCC 36 36 base pairs nucleic acid single linear unknown 2429 UGCACUGCUG AUGAGGCCGA AAGGCCGAAA GCAGCG 36 36 base pairs nucleic acid single linear unknown 2430 CCUGUGUCUG AUGAGGCCGA AAGGCCGAAA CAGGCU 36 36 base pairs nucleic acid single linear unknown 2431 CCUGUGUCUG AUGAGGCCGA AAGGCCGAAA CAGGCU 36 36 base pairs nucleic acid single linear unknown 2432 GAGAUGCCUG AUGAGGCCGA AAGGCCGAAA CUCUCU 36 36 base pairs nucleic acid single linear unknown 2433 GCACUGACUG AUGAGGCCGA AAGGCCGAAA UGCGAC 36 36 base pairs nucleic acid single linear unknown 2434 CUGCACUCUG AUGAGGCCGA AAGGCCGAAA GAUGCG 36 36 base pairs nucleic acid single linear unknown 2435 GGGUUCACUG AUGAGGCCGA AAGGCCGAAA CCAGGG 36 36 base pairs nucleic acid single linear unknown 2436 GGUCAGCCUG AUGAGGCCGA AAGGCCGAAA GCAGCC 36 36 base pairs nucleic acid single linear unknown 2437 AAAAAGCCUG AUGAGGCCGA AAGGCCGAAA GUUGAG 36 36 base pairs nucleic acid single linear unknown 2438 AUCCUUACUG AUGAGGCCGA AAGGCCGAAA AAGCAA 36 36 base pairs nucleic acid single linear unknown 2439 AUCCUUACUG AUGAGGCCGA AAGGCCGAAA AAGCAA 36 36 base pairs nucleic acid single linear unknown 2440 GAUGCCCCUG AUGAGGCCGA AAGGCCGAAA GCUUUC 36 36 base pairs nucleic acid single linear unknown 2441 UGGUAGACUG AUGAGGCCGA AAGGCCGAAA UCACUG 36 36 base pairs nucleic acid single linear unknown 2442 CACUUGGCUG AUGAGGCCGA AAGGCCGAAA GAUAUC 36 36 base pairs nucleic acid single linear unknown 2443 GCAAGACCUG AUGAGGCCGA AAGGCCGAAA CUCUGG 36 36 base pairs nucleic acid single linear unknown 2444 GCAGCAACUG AUGAGGCCGA AAGGCCGAAA CAACUC 36 36 base pairs nucleic acid single linear unknown 2445 CCGCAGCCUG AUGAGGCCGA AAGGCCGAAA GACAAC 36 36 base pairs nucleic acid single linear unknown 2446 UACAGUGCUG AUGAGGCCGA AAGGCCGAAA CGCCGC 36 36 base pairs nucleic acid single linear unknown 2447 UUACAGUCUG AUGAGGCCGA AAGGCCGAAA ACGCCG 36 36 base pairs nucleic acid single linear unknown 2448 ACUCCUGCUG AUGAGGCCGA AAGGCCGAAA GCCACG 36 36 base pairs nucleic acid single linear unknown 2449 ACUCCUGCUG AUGAGGCCGA AAGGCCGAAA GCCACG 36 36 base pairs nucleic acid single linear unknown 2450 CGAGCACCUG AUGAGGCCGA AAGGCCGAAA GCUGCG 36 36 base pairs nucleic acid single linear unknown 2451 UGAUGGCCUG AUGAGGCCGA AAGGCCGAAA CCAGGU 36 36 base pairs nucleic acid single linear unknown 2452 GUAUAAACUG AUGAGGCCGA AAGGCCGAAA AUUACA 36 36 base pairs nucleic acid single linear unknown 2453 AGUUUCUCUG AUGAGGCCGA AAGGCCGAAA GAUGCC 36 36 base pairs nucleic acid single linear unknown 2454 AGUUUCUCUG AUGAGGCCGA AAGGCCGAAA GAUGCC 36 36 base pairs nucleic acid single linear unknown 2455 CCUGCUACUG AUGAGGCCGA AAGGCCGAAA GUUUCU 36 36 base pairs nucleic acid single linear unknown 2456 AUUCCACCUG AUGAGGCCGA AAGGCCGAAA CCUGUU 36 36 base pairs nucleic acid single linear unknown 2457 GGGCAGCCUG AUGAGGCCGA AAGGCCGAAA GCUCCU 36 36 base pairs nucleic acid single linear unknown 2458 UCCCAGGCUG AUGAGGCCGA AAGGCCGAAA UCAAAA 36 36 base pairs nucleic acid single linear unknown 2459 UUACCAUCUG AUGAGGCCGA AAGGCCGAAA AGUCCC 36 36 base pairs nucleic acid single linear unknown 2460 UUACCAUCUG AUGAGGCCGA AAGGCCGAAA AGUCCC 36 36 base pairs nucleic acid single linear unknown 2461 GAGGUCACUG AUGAGGCCGA AAGGCCGAAA UGACAA 36 36 base pairs nucleic acid single linear unknown 2462 CACGGGGCUG AUGAGGCCGA AAGGCCGAAA CAUUAC 36 36 base pairs nucleic acid single linear unknown 2463 AUUUUAGCUG AUGAGGCCGA AAGGCCGAAA UAUGUG 36 36 base pairs nucleic acid single linear unknown 2464 UCUACAACUG AUGAGGCCGA AAGGCCGAAA CACCAC 36 36 base pairs nucleic acid single linear unknown 2465 UAAUUUCCUG AUGAGGCCGA AAGGCCGAAA CAAUAC 36 36 base pairs nucleic acid single linear unknown 2466 GGCGGAUCUG AUGAGGCCGA AAGGCCGAAA AAUAAU 36 36 base pairs nucleic acid single linear unknown 2467 GGCGGAUCUG AUGAGGCCGA AAGGCCGAAA AAUAAU 36 36 base pairs nucleic acid single linear unknown 2468 CAGGUAGCUG AUGAGGCCGA AAGGCCGAAA ACCCAG 36 54 base pairs nucleic acid single linear unknown 2469 ACAGGCAGAG AAGAUGACAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2470 GCAAAACAAG AAGGGCUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2471 AGGUGCAAAG AAGGCAGGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2472 GCACCAAGAG AAGAAAGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2473 AACACCUGAG AAGAAGUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2474 GACCACAGAG AAGCGUUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2475 AGCUCUUCAG AAGAAACAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2476 ACAUCAUAAG AAGCACCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2477 CAAAGAUGAG AAGGUUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2478 GUGCCCUCAG AAGAUGGGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2479 GUAGGGAAAG AAGCUUUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2480 AUUUCAAAAG AAGAUAUAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2481 UCUUGGGAAG AAGUUGUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2482 ACACAUGAAG AAGUGGUUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2483 AGUUGAAGAG AAGAUUCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2484 AGGAUGGGAG AAGGUUAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2485 GUAGGUCAAG AAGCAUAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2486 AGCAGUAGAG AAGGCAGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2487 UGGGGCAAAG AAGUAGGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2488 GUGGGUAAAG AAGCUUAAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2489 UCAGCUUAAG AAGAAAGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 18 base pairs nucleic acid single linear unknown 2490 GUCAUCAGCC CUGCCUGU 18 18 base pairs nucleic acid single linear unknown 2491 CAGCCCUGCC UGUUUUGC 18 18 base pairs nucleic acid single linear unknown 2492 CCUGCCUGUU UUGCACCU 18 18 base pairs nucleic acid single linear unknown 2493 UCUUUCAGCU CUUGGUGC 18 18 base pairs nucleic acid single linear unknown 2494 CACUUCUGUU CAGGUGUU 18 18 base pairs nucleic acid single linear unknown 2495 CAACGCUGUC CUGUGGUC 18 18 base pairs nucleic acid single linear unknown 2496 UGUUUCUGUU GAAGAGCU 18 18 base pairs nucleic acid single linear unknown 2497 UGGUGCUGAC UAUGAUGU 18 18 base pairs nucleic acid single linear unknown 2498 AGAACCGGAC CAUCUUUG 18 18 base pairs nucleic acid single linear unknown 2499 CCCAUCUGAC GAGGGCAC 18 18 base pairs nucleic acid single linear unknown 2500 CAAAGCUGAC UUCCCUAC 18 18 base pairs nucleic acid single linear unknown 2501 UAUAUCUGAC UUUGAAAU 18 18 base pairs nucleic acid single linear unknown 2502 CACAACAGUU UCCCAAGA 18 18 base pairs nucleic acid single linear unknown 2503 AACCACAGCU UCAUGUGU 18 18 base pairs nucleic acid single linear unknown 2504 UGAAUCAGAC CUUCAACU 18 18 base pairs nucleic acid single linear unknown 2505 AUAACCUGCU CCCAUCCU 18 18 base pairs nucleic acid single linear unknown 2506 AUAUGCUGCC UGACCUAC 18 18 base pairs nucleic acid single linear unknown 2507 GCUGCCUGAC CUACUGCU 18 18 base pairs nucleic acid single linear unknown 2508 ACCUACUGCU UUGCCCCA 18 18 base pairs nucleic acid single linear unknown 2509 UUAAGCUGUU UUACCCAC 18 18 base pairs nucleic acid single linear unknown 2510 UCUUUCAGAU UAAGCUGA 18 54 base pairs nucleic acid single linear unknown 2511 AGAAAUGGAG AAGAGUGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2512 AUCCACCCAG AAGAUGCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2513 AAUCGAGAAG AAGAGAUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2514 CCUGCAUCAG AAGACAAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2515 GACGAAUCAG AAGCACAAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2516 AAAGACGAAG AAGCAGCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2517 UCAUCAACAG AAGAAGACAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2518 CUGACUUGAG AAGUUGUUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2519 AACGGCAAAG AAGCAAUAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2520 CAAUGACAAG AAGCACCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2521 CAUAUAAAAG AAGGUUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2522 GUGCCCCGAG AAGAAAGGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2523 AACGACACAG AAGUAUGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2524 GUAGAGAAAG AAGCUUUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2525 GGAAGCAAAG AAGGUAAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2526 AUGACGACAG AAGUUAUUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2527 UCUUCUGAAG AAGCUUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2528 GAAGGUAAAG AAGUUGUUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2529 GGAAGACGAG AAGUUCAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2530 UAAAGGAAAG AAGUCUGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2531 CCCACAUGAG AAGAGAAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2532 UCCGAAAGAG AAGCUAGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2533 CAGAAAAGAG AAGGCCUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 18 base pairs nucleic acid single linear unknown 2534 ACACUCUGUU CCAUUUCU 18 18 base pairs nucleic acid single linear unknown 2535 AGCAUCUGCC GGGUGGAU 18 18 base pairs nucleic acid single linear unknown 2536 CAUCUCUGUU UCUCGAUU 18 18 base pairs nucleic acid single linear unknown 2537 AUUGUCAGUU GAUGCAGG 18 18 base pairs nucleic acid single linear unknown 2538 UUGUGCUGCU GAUUCGUC 18 18 base pairs nucleic acid single linear unknown 2539 UGCUGCUGAU UCGUCUUU 18 18 base pairs nucleic acid single linear unknown 2540 GUCUUCAGAU GUUGAUGA 18 18 base pairs nucleic acid single linear unknown 2541 AACAACUGUC CAAGUCAG 18 18 base pairs nucleic acid single linear unknown 2542 UAUUGCUGCC UUGCCGUU 18 18 base pairs nucleic acid single linear unknown 2543 UGGUGCUGUC UGUCAUUG 18 18 base pairs nucleic acid single linear unknown 2544 AGAACCGGAC UUUAUAUG 18 18 base pairs nucleic acid single linear unknown 2545 CCUUUCAGAC CGGGGCAC 18 18 base pairs nucleic acid single linear unknown 2546 ACAUACAGCU GUGUCGUU 18 18 base pairs nucleic acid single linear unknown 2547 CAAAGCUGAC UUCUCUAC 18 18 base pairs nucleic acid single linear unknown 2548 AUUACCUGCU UUGCUUCC 18 18 base pairs nucleic acid single linear unknown 2549 AAUAACAGUC GUCGUCAU 18 18 base pairs nucleic acid single linear unknown 2550 AGAAGCUGUU UCAGAAGA 18 18 base pairs nucleic acid single linear unknown 2551 AACAACAGCC UUACCUUC 18 18 base pairs nucleic acid single linear unknown 2552 CUGAACAGAC CGUCUUCC 18 18 base pairs nucleic acid single linear unknown 2553 ACAGACCGUC UUCCUUUA 18 18 base pairs nucleic acid single linear unknown 2554 CUUCUCUGUC CAUGUGGG 18 18 base pairs nucleic acid single linear unknown 2555 GCUAGCUGAU CUUUCGGA 18 18 base pairs nucleic acid single linear unknown 2556 GAGGCCUGCC CUUUUCUG 18 54 base pairs nucleic acid single linear unknown 2557 GUUACAGCAG AAGAGAAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2558 CCUGUUACAG AAGCAGAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2559 CCCCACUCAG AAGUGUGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2560 CACCAGAGAG AAGGAAGGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2561 UUCAGAGGAG AAGCACCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2562 CAUGGCAGAG AAGCAGUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2563 CAGGGUCCAG AAGUCCGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2564 UGUCCUUGAG AAGAAGAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2565 CAGAAUUCAG AAGGUGGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2566 UAUAGAUGAG AAGGUCAAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2567 AACAGACAAG AAGAUGGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2568 GGGAAUGAAG AAGACAAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2569 CUCGUAACAG AAGGGAAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2570 AAGAUAAAAG AAGCGUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2571 CUGGGGGAAG AAGAGGGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2572 GGAAUGUGAG AAGGGGGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2573 GGAAGUACAG AAGUAAUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2574 UAGAAUUAAG AAGAAAACAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2575 AGUUGCGAAG AAGCUUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2576 UUUUCUUGAG AAGUUCACAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2577 UGGGCUUCAG AAGAUCUUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 18 base pairs nucleic acid single linear unknown 2578 CUUCUCUGCU GCUGUAAC 18 18 base pairs nucleic acid single linear unknown 2579 CUCUGCUGCU GUAACAGG 18 18 base pairs nucleic acid single linear unknown 2580 ACACACGGAU GAGUGGGG 18 18 base pairs nucleic acid single linear unknown 2581 CCUUCCUGCU CUCUGGUG 18 18 base pairs nucleic acid single linear unknown 2582 UGGUGCUGCU CCUCUGAA 18 18 base pairs nucleic acid single linear unknown 2583 GACUGCAGAC CUGCCAUG 18 18 base pairs nucleic acid single linear unknown 2584 UCGGACAGUU GGACCCUG 18 18 base pairs nucleic acid single linear unknown 2585 AUCUUCAGAU CAAGGACA 18 18 base pairs nucleic acid single linear unknown 2586 UCCACCAGAU GAAUUCUG 18 18 base pairs nucleic acid single linear unknown 2587 UUGACCUGCU CAUCUAUA 18 18 base pairs nucleic acid single linear unknown 2588 UCCAUCAGCU UGUCUGUU 18 18 base pairs nucleic acid single linear unknown 2589 CUUGUCUGUU UCAUUCCC 18 18 base pairs nucleic acid single linear unknown 2590 AUUCCCUGAU GUUACGAG 18 18 base pairs nucleic acid single linear unknown 2591 AGACGCGGCU UUUAUCUU 18 18 base pairs nucleic acid single linear unknown 2592 ACCCUCAGCC UCCCCCAG 18 18 base pairs nucleic acid single linear unknown 2593 UCCCCCAGAC CACAUUCC 18 18 base pairs nucleic acid single linear unknown 2594 GAUUACAGCU GUACUUCC 18 18 base pairs nucleic acid single linear unknown 2595 GUUUUCUGUC UAAUUCUA 18 18 base pairs nucleic acid single linear unknown 2596 AGAAGCGGCC UCGCAACU 18 18 base pairs nucleic acid single linear unknown 2597 GUGAACAGAC CAAGAAAA 18 18 base pairs nucleic acid single linear unknown 2598 AAGAUCUGAU GAAGCCCA 18 54 base pairs nucleic acid single linear unknown 2599 UCUUACGCAG AAGCUUGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2600 UUGUUCAAAG AAGUGCUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2601 CUACAGGAAG AAGGUUGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2602 CAUGGUGCAG AAGGGGUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2603 AUCAGCAAAG AAGUCACAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2604 CAUCUGAGAG AAGCAAGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2605 GAAACAGCAG AAGAGAUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2606 UCCACGGAAG AAGCAUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2607 AUGGGCACAG AAGAUAUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2608 UGUCCUUGAG AAGAACAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2609 AGAUACUGAG AAGUUCUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2610 AAGAGAGAAG AAGUUGGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2611 CACACACCAG AAGGGAAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2612 ACACACACAG AAGUCAUAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2613 GUAACUGAAG AAGUAAUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2614 CAAUGAUGAG AAGCAUCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2615 GCCUGCUAAG AAGAUUCGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2616 AACUUAGAAG AAGUGUUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2617 UUCCAAUCAG AAGAGAACAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2618 GAAUUCCAAG AAGCUGAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2619 AAUUAUUCAG AAGUAGAAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 18 base pairs nucleic acid single linear unknown 2620 GCAAGCAGAC GCGUAAGA 18 18 base pairs nucleic acid single linear unknown 2621 CAGCACGGAC UUGAACAA 18 18 base pairs nucleic acid single linear unknown 2622 ACAACCAGAC UCCUGUAG 18 18 base pairs nucleic acid single linear unknown 2623 GACCCCAGAU GCACCAUG 18 18 base pairs nucleic acid single linear unknown 2624 UGUGACAGUC UUGCUGAU 18 18 base pairs nucleic acid single linear unknown 2625 UCUUGCUGAU CUCAGAUG 18 18 base pairs nucleic acid single linear unknown 2626 GAUCUCAGAU GCUGUUUC 18 18 base pairs nucleic acid single linear unknown 2627 AGAUGCUGUU UCCGUGGA 18 18 base pairs nucleic acid single linear unknown 2628 CAUAUCUGCC GUGCCCAU 18 18 base pairs nucleic acid single linear unknown 2629 AUGUUCAGAU CAAGGACA 18 18 base pairs nucleic acid single linear unknown 2630 CAGAACUGUU CAGUAUCU 18 18 base pairs nucleic acid single linear unknown 2631 UCCAACAGCC UCUCUCUU 18 18 base pairs nucleic acid single linear unknown 2632 AUUCCCGGAU GGUGUGUG 18 18 base pairs nucleic acid single linear unknown 2633 UAUGACCGUU GUGUGUGU 18 18 base pairs nucleic acid single linear unknown 2634 GAUUACAGCU UCAGUUAC 18 18 base pairs nucleic acid single linear unknown 2635 UGAUGCUGCU CAUCAUUG 18 18 base pairs nucleic acid single linear unknown 2636 CGAAUCAGCC UAGCAGGC 18 18 base pairs nucleic acid single linear unknown 2637 CAACACAGCC UCUAAGUU 18 18 base pairs nucleic acid single linear unknown 2638 GUUCUCAGCU GAUUGGAA 18 18 base pairs nucleic acid single linear unknown 2639 CUCAGCUGAU UGGAAUUC 18 18 base pairs nucleic acid single linear unknown 2640 UUCUACAGUU GAAUAAUU 18 54 base pairs nucleic acid single linear unknown 2641 GACCAGGCAG AAGGACCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2642 UGAGACCAAG AAGCAGGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2643 ACUGCAGAAG AAGACGAAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2644 GGUCAGCAAG AAGCCCCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2645 GGACAGCGAG AAGCAAGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2646 GGAUGGACAG AAGUCAGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2647 UCUGGAUGAG AAGCGGUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2648 GCACAAAGAG AAGCACUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2649 CGAGCAUGAG AAGUGCAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2650 GACCCCAAAG AAGGGCGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2651 CUGUAGCAAG AAGCUUGAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2652 GCCGACUGAG AAGGGCUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2653 AAGAAGCCAG AAGGGCAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2654 GGAGAAGAAG AAGACUGGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2655 UUUUCGAAAG AAGAUGACAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2656 CAGACAACAG AAGUCUUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2657 GGGCUCUCAG AAGAUCCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2658 GGAUGGCAAG AAGGAUCCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2659 GGAAGAUCAG AAGGAAAAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2660 ACUGGAGCAG AAGUGUUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2661 UGCACUGGAG AAGCAGUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2662 CUCUGGCCAG AAGCCUGUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2663 CCUGCAGCAG AAGCACCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2664 ACCCCUGCAG AAGCAGCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 18 base pairs nucleic acid single linear unknown 2665 UGGUCCUGCC GCCUGGUC 18 18 base pairs nucleic acid single linear unknown 2666 UCCUGCCGCC UGGUCUCA 18 18 base pairs nucleic acid single linear unknown 2667 UUCGUCUGCC UCUGCAGU 18 18 base pairs nucleic acid single linear unknown 2668 UGGGGCUGCU UGCUGACC 18 18 base pairs nucleic acid single linear unknown 2669 GCUUGCUGAC CGCUGUCC 18 18 base pairs nucleic acid single linear unknown 2670 GCUGACCGCU GUCCAUCC 18 18 base pairs nucleic acid single linear unknown 2671 GACCGCUGUC CAUCCAGA 18 18 base pairs nucleic acid single linear unknown 2672 CAGUGCUGUU CUUUGUGC 18 18 base pairs nucleic acid single linear unknown 2673 CUGCACCGCU CAUGCUCG 18 18 base pairs nucleic acid single linear unknown 2674 UCGCCCGGCU UUGGGGUC 18 18 base pairs nucleic acid single linear unknown 2675 UCAAGCAGAU UGCUACAG 18 18 base pairs nucleic acid single linear unknown 2676 GAGCCCUGCC CAGUCGGC 18 18 base pairs nucleic acid single linear unknown 2677 CUGCCCAGUC GGCUUCUU 18 18 base pairs nucleic acid single linear unknown 2678 CCAGUCGGCU UCUUCUCC 18 18 base pairs nucleic acid single linear unknown 2679 GUCAUCUGCU UUCGAAAA 18 18 base pairs nucleic acid single linear unknown 2680 CAAGACUGAU GUUGUCUG 18 18 base pairs nucleic acid single linear unknown 2681 AGGAUCGGCU GAGAGCCC 18 18 base pairs nucleic acid single linear unknown 2682 GGAUCCUGUU UGCCAUCC 18 18 base pairs nucleic acid single linear unknown 2683 UUUUCCCGAC GAUCUUCC 18 18 base pairs nucleic acid single linear unknown 2684 CAACACUGCU GCUCCAGU 18 18 base pairs nucleic acid single linear unknown 2685 CACUGCUGCU CCAGUGCA 18 18 base pairs nucleic acid single linear unknown 2686 ACAGGCAGUU GGCCAGAG 18 18 base pairs nucleic acid single linear unknown 2687 UGGUGCUGCU GCUGCAGG 18 18 base pairs nucleic acid single linear unknown 2688 UGCUGCUGCU GCAGGGGU 18 54 base pairs nucleic acid single linear unknown 2689 GCGCGCACAG AAGAGGCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2690 UGUCAACAAG AAGCCCCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2691 CCUAGAUGAG AAGCUGUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2692 GCUUGUCAAG AAGCUUCCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2693 UUCUCAAGAG AAGUGCAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2694 UUCCACUGAG AAGAGAAUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2695 CAGGUACAAG AAGUGUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2696 GGAUGACAAG AAGUAUCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2697 GCCGACUGAG AAGGGAUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2698 AAGAAGCCAG AAGGGCAGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2699 GGAGAAGAAG AAGACUGGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2700 UGACAUUAAG AAGACUCGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2701 GGGCUCGCAG AAGGGACUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2702 GAAUGACCAG AAGGGCUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2703 CCCAUCACAG AAGGAAUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2704 UGCCGUCGAG AAGCAGGGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2705 ACUGGAGCAG AAGUGUUAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2706 UGCACUGGAG AAGCGGUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2707 GUGUGACAAG AAGACACCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2708 CCUCCAAAAG AAGUUCCAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2709 GGUCAGCAAG AAGCCAUCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2710 UUCAAAAGAG AAGCAAGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2711 UGACAGGGAG AAGGCAUGAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2712 CGAGCACAAG AAGCGGGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2713 GUUUUAAAAG AAGUUUCUAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2714 CGGGUUUGAG AAGCAAGCAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2715 GGAUCAAAAG AAGGUAACAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 54 base pairs nucleic acid single linear unknown 2716 AAACCCAGAG AAGAUUAAAC CAGAGAAACA CACGUUGUGG UACAUUACCU GGUA 54 18 base pairs nucleic acid single linear unknown 2717 UGCCUCGGCU GUGCGCGC 18 18 base pairs nucleic acid single linear unknown 2718 UGGGGCUGCU UGUUGACA 18 18 base pairs nucleic acid single linear unknown 2719 GACAGCGGUC CAUCUAGG 18 18 base pairs nucleic acid single linear unknown 2720 GGAAGCCGAC UGACAAGC 18 18 base pairs nucleic acid single linear unknown 2721 CUGCACAGCU CUUGAGAA 18 18 base pairs nucleic acid single linear unknown 2722 AUUCUCAGCC CAGUGGAA 18 18 base pairs nucleic acid single linear unknown 2723 AGACACUGUC UGUACCUG 18 18 base pairs nucleic acid single linear unknown 2724 UGAUACCGUC UGUCAUCC 18 18 base pairs nucleic acid single linear unknown 2725 CAUCCCUGCC CAGUCGGC 18 18 base pairs nucleic acid single linear unknown 2726 CUGCCCAGUC GGCUUCUU 18 18 base pairs nucleic acid single linear unknown 2727 CCAGUCGGCU UCUUCUCC 18 18 base pairs nucleic acid single linear unknown 2728 CGAGUCAGAC UAAUGUCA 18 18 base pairs nucleic acid single linear unknown 2729 AGUCCCGGAU GCGAGCCC 18 18 base pairs nucleic acid single linear unknown 2730 GAGCCCUGCU GGUCAUUC 18 18 base pairs nucleic acid single linear unknown 2731 CAUUCCUGUC GUGAUGGG 18 18 base pairs nucleic acid single linear unknown 2732 CCCUGCGGCU CGACGGCA 18 18 base pairs nucleic acid single linear unknown 2733 UAACACCGCU GCUCCAGU 18 18 base pairs nucleic acid single linear unknown 2734 CACCGCUGCU CCAGUGCA 18 18 base pairs nucleic acid single linear unknown 2735 GGUGUCAGCC UGUCACAC 18 18 base pairs nucleic acid single linear unknown 2736 UGGAACUGCU UUUGGAGG 18 18 base pairs nucleic acid single linear unknown 2737 GAUGGCUGCU UGCUGACC 18 18 base pairs nucleic acid single linear unknown 2738 GCUUGCUGAC CUUUUGAA 18 18 base pairs nucleic acid single linear unknown 2739 CAUGCCUGCC CCCUGUCA 18 18 base pairs nucleic acid single linear unknown 2740 GCCCGCAGCU UGUGCUCG 18 18 base pairs nucleic acid single linear unknown 2741 AGAAACAGCU UUUAAAAC 18 18 base pairs nucleic acid single linear unknown 2742 GCUUGCUGCC CAAACCCG 18 18 base pairs nucleic acid single linear unknown 2743 GUUACCUGAU UUUGAUCC 18 18 base pairs nucleic acid single linear unknown 2744 UUAAUCCGCC CUGGGUUU 18 11 base pairs nucleic acid single linear unknown The letter “N” stands for any base. The letter “H” stands for A, U, or C. 2745 NNNNUHNNNN N 11 28 base pairs nucleic acid single linear unknown The letter “N” stands for any base. 2746 NNNNNCUGAN GAGNNNNNNC GAAANNNN 28 15 base pairs nucleic acid single linear unknown The letter “N” stands for any base. The leter “Y” stands for U or C. The letter “H” stands for A, U, or C. 2747 NNNNNNNYNG HYNNN 15 47 base pairs nucleic acid single linear unknown The letter “N” stands for any base. 2748 NNNNGAAGNN NNNNNNNNNA AAHANNNNNN NACAUUACNN NNNNNNN 47 85 base pairs nucleic acid single linear unknown 2749 UGGCCGGCAU GGUCCCAGCC UCCUCGCUGG CGCCGGCUGG GCAACAUUCC GAGGGGACCG 60 UCCCCUCGGU AAUGGCGAAU GGGAC 85 176 base pairs nucleic acid single linear unknown 2750 GGGAAAGCUU GCGAAGGGCG UCGUCGCCCC GAGCGGUAGU AAGCAGGGAA CUCACCUCCA 60 AUUUCAGUAC UGAAAUUGUC GUAGCAGUUG ACUACUGUUA UGUGAUUGGU AGAGGCUAAG 120 UGACGGUAUU GGCGUAAGUC AGUAUUGCAG CACAGCACAA GCCCGCUUGC GAGAAU 176 12 base pairs nucleic acid single linear unknown 2751 GGCCGAAAGG CC 12 

What is claimed is:
 1. A nucleic acid molecule which specifically blocks expression of a transcript encoding human or mouse CD40, wherein said nucleic acid molecule is selected from the group consisting of an antisense nucleic acid molecule and an enzymatic nucleic acid molecule.
 2. The nucleic acid molecule of claim 1, wherein said nucleic acid molecule is an enzymatic nucleic acid molecule.
 3. The nucleic acid molecule of claim 2, wherein, the binding arms of said enzymatic nucleic acid molecule comprise sequences complementary to any of nucleotide base sequences in Tables X and XII.
 4. The nucleic acid molecule of claim 2, wherein said enzymatic nucleic acid molecule is in a hammerhead motif.
 5. The nucleic acid molecule of claim 2, wherein said enzymatic nucleic acid molecule is in a hairpin, hepatitis Delta virus, group I intron, VS nucleic acid or RNaseP nucleic acid motif.
 6. The nucleic acid molecule of claim 2, wherein said enzymatic nucleic acid molecule comprises between 12 and 100 bases complementary to a portion of RNA encoding said CD40.
 7. The nucleic acid molecule of claim 6, wherein said enzymatic nucleic acid molecule comprises between 14 and 24 bases complementary to the RNA.
 8. A mammalian cell in vitro including a nucleic acid molecule of claim
 1. 9. The mammalian cell of claim 8, wherein said mammalian cell is a human cell.
 10. An expression vector comprising a nucleic acid sequence encoding the nucleic acid molecule of claim 1, in a manner which allows expression and/or delivery of said nucleic acid molecule.
 11. A mammalian cell in vitro including the expression vector of claim
 10. 12. The mammalian cell of claim 11, wherein said mammalian cell is a human cell.
 13. The nucleic acid molecule of claim 4, wherein said hammerhead motif comprises any of nucleotide sequence shown in Tables XI and XIII.
 14. The nucleic acid molecule of claim 2, wherein, the binding arms of said enzymatic nucleic acid molecule comprise sequences complementary to any of substrate nucleotide base sequences in Tables XVIII and XIX.
 15. The nucleic acid molecule of claim 1, wherein said nucleic acid molecule is an antisense nucleic acid molecule.
 16. The nucleic acid molecule of claim 15, wherein, said antisense nucleic acid molecule is complementary to any of nucleotide sequence in Tables X and XII.
 17. The nucleic acid molecule of claim 1, wherein said nucleic acid molecule comprises a chemical modification.
 18. The nucleic acid molecule of claim 17, wherein said chemical modification is a sugar modification.
 19. The nucleic acid molecule of claim 18, wherein said sugar modification is 2′-O-methyl or 2′H or a combination of 2′-O-methyl and 2′H.
 20. The nucleic acid molecule of claim 17, wherein said chemical modification is a nucleotide base modification.
 21. The nucleic acid molecule of claim 17, wherein said chemical modification is a phosphodiester backbone modification.
 22. The nucleic acid molecule of claim 17, wherein said phosphodiester backbone modification is phosphorothioate.
 23. The nucleic acid molecule of claim 2, wherein said enzymatic nucleic acid molecule is able to specifically cleave RNA encoded by said gene.
 24. A method of blocking the expression of CD40 gene in vitro, comprising the step of contacting RNA encoded by said CD40 gene with the nucleic acid molecule of claim 1 under conditions suitable for said blocking.
 25. The method of claim 23, wherein said nucleic acid molecule is an enzymatic nucleic acid molecule.
 26. The method of claim 23, wherein said nucleic acid molecule is an antisense nucleic acid molecule. 